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Commercial Refrigeration Product Catalog 2009
Commercial Refrigeration Product Catalog 2009
March 27, 2018 | Author: Tengku Anindya Paramitha | Category:
Heat Exchanger
,
Gas Compressor
,
Air Conditioning
,
Structural Steel
,
Horsepower
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Table of ContentsPressure Vessel construction and certification Brazed Plate Heat Exchanger design information and nomenclature Condensers Liquid Receivers Evaporators Suction Accumulators Vertical Accumulators Refrigerant Subcoolers DSP-CB Copper-Brazed Plate Heat Exchanger Chiller Builder Kits Low-Side Chiller Builder Valve, Brackets and Accessories Ultra-Compact General Service Menu Table of Contents Condensers Water-Cooled Condensers design features and ratings Selecting the Right Condenser HSE Shell-and-Tube Super Efficient SST Shell-and-Tube General Service CND-CB Copper-Brazed Plate Heat Exchanger Ultra-Compact General Service CND-AC AlfaChill-Copper Brazed Plate Heat Exchanger Ultra-Compact High Efficiency MSE Shell-and-Tube VSE Shell-and-Coil Vertical HP Shell-and-Tube ELT Tube-in-Tube CA Shell-and-Tube KHX Tube-in-Tube Marine Service High Pressure/High Pumpdown Stainless Steel Water-Side CND-AN AlfaNova Fusion-Bonded for high corrosion resistance Space-Saver Cleanable Cleanable SCH/SCS Coaxial Custom Design Condenser Specification Sheet Replacement Condenser Gaskets and Endplates Cross Reference Chart Gasket IDs Front Endplate IDs Menu Table of Contents Evaporators Selecting the Right Evaporator Evaporator Sizing TX/TXC Shell-and-Tube Super Compact Serviceable EVP-AC AlfaChill Copper- EVP-AN AlfaNova Fusion- Ultra-Compact High Efficiency for high corrosion resistance Brazed Plate Heat Exchanger TXG Shell-and-Tube Ultra-Compact Serviceable Custom Design Evaporator Specification Sheet Bonded Heat Exchanger ERS/ERD Shell-and-Tube OEM Replacement Replacement Evaporator Gaskets Cross Reference Chart Menu Table of Contents Refrigerant Subcoolers SCT Shell-and-Coil Vertical Subcooler SBC-CB Copper-Brazed Plate Heat Exchanger Ultra-Compact General Service SBC-AC AlfaChill Copper- Brazed Plate Heat Exchanger Ultra-Compact High Efficiency . Menu Table of Contents Liquid Receivers Design Features and Ratings HR Horizontal Design RBV Horizontal Design with Brackets and Valves UR Upright Receivers UV Upright Receivers with Valves L Compact Vertical Receivers with Valve and Fusible Plug . Menu Table of Contents Valves. Brackets and Accessories Rotolock Valve Float Type Indicators Safety Devices/Sight Glass Indicators (4) Bolt Flanged Valve/ Indicator Components Rotolock Components Brackets . Menu Commercial Refrigeration Product Catalog 2009 Edition 2 . ...... 25 SCH/SCS Coaxial................................. 9 HSE Shell-and-Tube-Super Efficient................... 45-46 EVP-AC AlfaChill Copper-Brazed Plate Heat Exchanger (ultra-compact) ...7-8 Water-Cooled Condensers design features and ratings......................................................................................................................................................................General Service............15-16 MSE Shell-and-Tube-Marine Service.............High Efficiency........................................... 28-37 Evaporators Evaporator Sizing....Copper-Brazed Plate Heat Exchanger (ultra-compact) .............17-18 HP Shell-and-Tube-High Pressure/High Pumpdown...................... 14 CND-AC AlfaChill ........ 20 CND-AN AlfaNova Fusion-bonded Heat Exchanger for high corrosion resistance................... 21 VSE Shell-and-Coil Vertical Space-Saver......General Service.... 19 CA Shell-and-Tube-Stainless Steel Water-Side................................................................................................. 41-44 TXG Shell-and-Tube Ultra Compact Serviceable...................................................................High Efficiency............Menu Table of Contents The information contained herein is correct at the time of issue but may be subject to change without prior notice................... 6 Condensers Selecting the Right Condenser...12-13 CND-CB Copper-Brazed Plate Heat Exchanger (ultra-compact) .........Copper Brazed Plate Heat Exchanger (ultra-compact) ... 49 ERS/ERD Shell-and-Tube OEM replacement.............................. 27 Replacement Condenser Gaskets and Endplates Cross Reference Chart............................................................................................................................................................ 52 Replacement Evaporator Gaskets Cross Reference Chart................................................................................................... Pressure Vessel construction and certification........................... 5 Brazed Plate Heat Exchanger design information and nomenclature..................... 26 Custom Design Condenser Specification Sheet............. 50-51 Custom Design Evaporator Specification Sheet....................56 ......................................................................22-23 ELT Tube-in-Tube Cleanable...High Efficiency........................................................................................... 47-48 EVP-AN AlfaNova Fusion-bonded Heat Exchanger for high corrosion resistance...................... 38-39 Selecting the Right Evaporator.. 55 SBC-AC AlfaChill . 40 TX/TXC Shell-and-Tube Super Compact Serviceable........ 53 Refrigerant Subcoolers SCT Shell-and-Coil Vertical Subcooler........................................................................................................ 24 KHX Tube-in-Tube Cleanable..................... 54 SBC-CB Copper-Brazed Plate Heat Exchanger (ultra-compact) ...........................10-11 SST Shell-and-Tube-General Service................................. ....................................................................................................................................... Chiller Builder Kits Chiller Builder Kits Low-Side Chiller Builder................................ 63 UV Upright Receivers with Valves.................... 66 Desuperheaters DSP-CB Copper-Brazed Plate Heat Exchanger (ultra-compact) ............ 69 Float Type Indicators.................. 68 (4) Bolt Flanged Valve/Indicator Components.......................................................... 71 Safety Devices/Sight Glass Indicators....................................................................................General Service........................... 61 RBV Horizontal Design with Brackets and Valves.................................. 72 Brackets................................................................. 62 UR Upright Receivers......................................................... 70 Rotalock Components.......................................57-59 Liquid Receivers Design Features and Ratings 60 HR Horizontal Design..... 73 ....... 64 L Compact Vertical Receivers with Valve and Fusible Plug............Menu Table of Contents Continued The information contained herein is correct at the time of issue but may be subject to change without prior notice..................................... 65 Suction Accumulators A Vertical Accumulators................................................................................ Brackets and Accessories Rotalock Valves........................ 67 Valves.......................................................... Bd. an independent. and chemical and physical test certification for all material must be on file. This recognition requirement is because UL takes the position that someone other than the manufacturer should check the construction. equipment. Only when requested. Certain details of construction must be observed.3 times the MAWP.1 times the MAWP or hydrostatically to 1. at the manufacturer’s plant. Other international codes possibly available upon request include New Zealand. National Board Registration means that in addition to the ASME construction. Certain government or military requirements essentially parallel the ASME code. ASME Code Construction is the same whether UM or U certified. fabrication and testing of the vessel. We recommend referring to Nat. because it has been inspected by an independent agent. Initial tests are made at Underwriters Laboratory and re-examination tests are made under UL supervision. licensed inspector has monitored the procedures. 5 . signed by the manufacturer. and personnel must be qualified by performance tests. The recognition list is not published —as is the listing— the records are kept by UL and generally used only when granting listing to an assembly that includes the vessel. the vessel must have a calculated design strength capable of withstanding the maximum allowable working pressure (MAWP) and tested pneumatically to 1. rather than U–stamp. typical samples of which can withstand five times the marked working pressure without failure for the gas side and three times the marked working pressure without failure for the fluid side. a certificate (Form U–3) is furnished. Australia. Most other countries will accept them also. The letter U appears in the ASME cloverleaf stamp on the tag. International Code Stamps CRN Canadian registration is available on cataloged and custom models. Their testing and reexamination procedure is identical to that for listing. Underwriters Laboratory will automatically accept a National Board registered vessel when listing an assembly. A National Board certified vessel is accepted by all states and municipal codes in the United States. Essentially. CRN or special code requests must be made at time of order. with over 1. China and Europe (CE). but may specify approval and/or certification by inspectors from a government agency in addition to. UM Certification means that the manufacturer’s personnel have performed the necessary inspection and tests. Welding procedures. UL Recognition of UM vessels. or UL requirements.5 cubic feet net internal volume ASME Code Construction with UM Certification and UL Recognition Six inches or greater ID. but less than 1.5 cubic feet net internal volume ASME Code Construction with U Certification and National Board Registration Notes UL Listing may be obtained for a vessel. or in place of ASME code.. Japan. The letters UM appear in the ASME cloverleaf stamp on the tag. to specifications stricter than their own.Menu Condensers Pressure Vessel Construction and Certification Information Size of Vessel Construction and Certification generally acceptable. to avoid confusion between U and UM. furnished unless otherwise specified Under six inches ID UL Listing Six inches or greater ID. See the connection pages of this catalog for detailed information. Brazed Heat Exchangers threaded and sweat connections available in stock. Its high heat transfer efficiency in combination with its compact design equals a compact heat exchanger for a wide range of heating. 130.Menu Brazed Plate Heat Exchangers The Brazed Heat Exchanger – less is more The brazed plate heat exchanger is the most compact heat exchanger on the market today. Others available on request. weld neck. FNPT. Others available per request How to Read Alfa Laval Part Numbers Example: Part # CB27-44HX2 S52 Model Series # of Plates Channel Type Special Features # of Passes or Circuits Connection Types Connection Combinations CB27 44 H X 2 S 52 Brazing Material: “AC” = Copper-Brazed (AlfaChill™) “CB” = Copper-Brazed “AN” = Alfa Nova Model type indicated by the numbers 14. Roto Lock™. S2 C = D= S= T = V = Sweat MNPT Sweat MNPT Sweat MNPT Sweat Sweat MNPT Victaulic® *Customer-specific connections available including flange. S4 S1.Roto Lock is a trademark of Southco. 120. The result is a heat exchanger that costs less.9% pure copper brazing material AISI 304 or 316L plates channels formed when plates are pressed together threaded and sweat connections available in stock. seal plate unique herringbone plate pattern 99. Brazing the plates together eliminates the need for a frame. holds less refrigerant and takes up less space.# of Circuits: bution System (Denoted by Numbers) S = Frame Plate Stud Bolt Mounting without Integral Distributor 2 = Two Refrigerant Circuits with plate T = Pressure Plate Stud Bolt Mounting packs equally split without Integral Distributor U = Without Integral Distributor and between circuits without Mounting Feet 3 = Two Refrigerant X = Integral Distributor for Evaporative Circuits with plate packs unequally Duties Y = Frame Plate Stud Bolt Mounting split between circuits with Integral Distributor Z = Pressure Plate Stud Bolt Mounting with Integral Distributor Side Side S3. . Inc.The brazed heat exchanger consists of thin corrugated stainless steel plates brazed together with copper to form a self-contained unit. weighs less. cooling. 6 A = ASME “UM” certification (DB52 # of Passes: (Denoted by Letters) and CB76 models only) B = Frame and Press Plate Stud Bolt Mounting with Integral Distributor DQ = Dual Pass C = Frame and Press Plate Stud M = Multi-pass (3 or Bolt Mounting without Integral more) Distributor EQ = Equalancer™ Refrigerant Distri. evaporating and condensing duties. 27. gaskets. 80. 52. This number refers to a specific combination of connections. 76. 250 A = Combination Extra High and High Theta E = Extra High Theta H = High Theta L = Low Theta M = Medium Theta (combination High and Low Theta) Victaulic is a registered trademark of Victaulic Company of America. bolts and the carrying bar. 70. 000) + (180. It will provide 12 hp when new. they will cost much more. gpm. and read the corresponding flows and gpm. you are ready to refer to the Standard performance data to make the proper selection. it's safe and convenient to size by nominal horsepower.000 Btu Estimated Total Heat Rejection: (45. and over-sizing costs more. An SST-1500A. That's 3. is the ideal choice since the Total Heat of Rejection required falls in the middle of its performance window. available when new. An SST-750A for example will provide 7. = 105° However. This total is called the Total Heat of Rejection. High Back Pressure System (air conditioning) Size by nominal horsepower 1 HP = 12.000 Btu per ton plus 3.Menu Selecting the Right Condenser Sizing a Condenser A condenser is properly sized when its capacity to transfer heat from the system is equal to the cooling load.000 Btu Once you have determined the total heat of rejection and the corresponding condenser capacity.000 Btu Evaporating Capacity: 15 ton x 12. In looking at the capacity data for the SST you will note that total heat of rejection. For air-conditioning or a high back pressure system.000 Btu Sizing by Nominal hp In the condenser specification section of the catalog. and pressure drop in psi are provided for various Initial Temperature Differentials from 15°F to 40°F. 24 gpm and an ITD of 30°F. You can estimate the total heat of rejection by multiplying motor horsepower by (3000) to find the heat of compression. the nominal horsepower of the compressor will match the nominal tonnage of the air-conditioning system and the Total Heat of Rejection. A 15 hp compressor in a 15 ton system.5 hp after being in use for some time and fouled. Heat of Compression: 15 hp x 3000 Btu/hp = 45.000 Btu for heat of compression. 7 .000) =225. You will notice that models through an SST-4505A would also perform well. In the following example.000 Btu per hour total heat of rejection. the best practice is to begin by calculating the actual total heat of rejection. It is often possible to size a condenser by matching nominal horsepower to compressor horsepower in commercial or high temperature systems when manufacturer's information is not available. City Water = 75° Condensing Temp.000 Btu for heat compression = 15. An SST-1500A (2 pass) will provide the desired performance with 44 gpm and an ITD of 20°F or. produces 225. There are some proven rules of thumb for sizing that can get you in the ball park.000 Btu of load for each ton. plus 12. This means that there is additional condensing or total heat rejection capacity. matching nominal horsepower can result in oversizing for low and very low temperature applications. 15 hp condenser.000 Btu/hr = 180. However. While sizing by matching nominal compresser horsepower to condenser horsepower is often accurate. and then adding the load. note that most Standard condensers are rated by nominal horsepower in a fouled condition. You can now look for a Total Heat of Rejection that exceeds the 225.000 Btu requirement. plus the extra heat generated by the work of compressing the gas. 4 = Heat of Compression Heat of Compression + Evaporating Load = Total Heat of Rejection 6500 watts x 3. not just flow rates. Refrigeration Load + = Total Heat of Rejection You should always compare performance data when your application conditions vary from normal operating conditions. and R–22. you must add an additional 6. and types of fluid. the condensing temperature is not the same as the ARI standard of 105°F which means that the Standard catalog cannot be used to make your selection.600 Btu. In a 66. Just complete the information in our heat exchanger specification form and mail or fax it to our sales engineering department. In addition to selection tables. you can call your local representative or one of Standard’s sales engineers for a computer generated selection. Standard rates its condenser pumpdown capacities at 80% of the total volume.4 = 22.100 Btu Heat of Compression = 22. or other accessories. In this case. commercial refrigeration systems may require up to seven pounds per ton because of long refrigerant lines.300 Btu load would normally require a 5 hp (SST–500A) at the usual ARI rating point of 85°F. 8 . or if slight increases in head pressure or water flow are unacceptable. Higher loads under pull–down conditions call for an additional ten percent capacity if a very short pull– down time is required. a SST–200A (4 Pass) will perform with 7. The 62. but also the pull–down factor and pumpdown capacity. Other Considerations Remember to consider all of the factors that affect performance.27 gpm and a pressure drop of 1. Heat of Compression 110°F condensing temperature 10°F evaporating temperature 75°F incoming water temperature Refrigerant R-22 Evaporating Watts = 6500 Evaporating Load: 40. fouling.200 Btu Watts x 3. 105°F condensing.75 psi. However. in order to arrive at the best match for your application. pressure drop. or sales representative’s office.200 Btu Total Heat of Rejection = 62. you can also utilize Standard’s computerized selection service. The SST–500A would work in this application although it is three times larger than necessary. water or refrigerant fittings. Pumpdown requirements relate to the amount of refrigerant storage available in a condenser during operation or servicing.600 Btu for a total condenser sizing requirement of 72.Menu Selecting the Right Condensers Sizing by Total Heat of Rejection Heat of Rejection For example. We are happy to build customized condensers if an application calls for a modified condenser with additional valves. total heat of rejection for a system with the following performance characteristics would be calculated like this: Air Conditioning or Compressor Performance from manufactures published data. In this case.300 Btu Tower Water = 85° Condensing Temp. = 105° Although the refrigerant is R–22. A pumpdown capacity of three pounds of refrigerant per ton of capacity will be sufficient for most systems. special mounting brackets.000 Btu system. TD.100 Btu Evaporating Load = 40. stanref. condensing temperature.0. Pressure drop is defined as the loss of pressure due to friction and is the pressure difference between entering and leaving water sides. additional valves. VSE HSE HP SST ELT KHX MSE CA SCH/SCS Copper-Brazed (CND-CB) AlfaChill (CND-AC) AlfaNova (CND-AN) 9 . which can be obtained at www. plus the extra heat generated by the work of compressing the gas.000 Btu per hour @ 85°F.transfer. with a three gallon per minute (gpm) water flow and refrigerant 22. Please contact customer service for quotation. Contact customer service for a quotation. matching nominal HP can result in over-sizing for low and very low temperature applications. inlet water.pressure air conditioning and up to seven pounds per ton for commercial refrigeration/low back-pressure systems. Operating Charge Approximately 10% of the pumpdown capacity is required for shell & tube models and 5% for shell & coil models for proper operation. Pumpdown requirements relate to the amount of refrigerant storage available in a condenser during operation or servicing. Pumpdown Capacity Pumpdown figures have been compensated to provide capacity for R-22 based on 80% of condenser volume filled with liquid at 90°F. 0. To determine nominal flow rates multiply nominal horsepower (hp) by 3. When your application varies from nominal-air conditioning or normal operating conditions utilize Standard Refrigeration’s condenser selection software or condenser performance tables. Sizing by Nominal Horsepower A condenser is properly sized when its capacity to transfer heat from the system is equal to the cooling load. five pounds per ton for medium back.com or from customer service. Custom Designs Standard Refrigeration is always happy to design and build customized condensers if an application calls for special materials.00025 additive fouling factor and 105°F. For air–conditioning or a high back pressure system. This total is called the Total Heat of Rejection. any condenser product in our catalog must be customized to conform to ASME construction. Nominal pressure drops (psi) given are at nominal flow rates. water or refrigerant fittings. Water Flow Velocities of eight feet per second or higher risk premature impingement corrosion and tube failure. However. Note on Refrigerant R410a Applications Due to the high working pressures of Refrigerant R410a. Water pressure drops provided do not include any external fittings or valves. mounting brackets or other accessories. Operation below minimum flow rates may result in excessive fouling and poor heat transfer. All values in this catalog section are limited to flows below eight feet per second. it’s safe and convenient to size by nominal horsepower.Menu Water-Cooled Condensers Design Features and Ratings Nominal Horsepower Rating Basis Nominal Water Pressure Drop 15. A pumpdown capacity of three pounds of refrigerant per ton will be sufficient for high back-pressure air conditioning. 3 12 3/4 66 3/4 3 1/2 56 1/2 2 3/4 4 1/4 2 3/8 2 5/8 1 5/8 1/2 4 HSE-70 95.7 24 123 5 7/8 90 1/8 15 7/8 — 13 1/2 6 1/8 4 1/8 3/4 12 flange *HSE-2 and HSE-3 have ½" center fitting.7 16 114 5 3/8 90 5/8 11 7/8 — 9 4 1/8 3 1/8 3/4 8 flange HSE-250 393.2 52. inlet TAG T fluid in E T fluid in B A S safety HSE .8 7.0 20.2 12 3/4 66 3/4 3 1/2 56 1/2 2 3/4 4 1/4 2 3/8 3 1/8 2 1/8 1/2 4 HSE-100 151.4 6 5/8 33 3/8 2 1/2 27 1/2 2 2 1/8 1 3/4 1 3/8 7/8 1/2 1 1/4 HSE-10 11. Parallel outer fittings for nominal flow. inlet R S safety A T fluid out F TAG HSE-2 thru HSE-50A L P refrig.8 124.1 8 5/8 51 1/8 3 45 2 1/8 1 3/4 1 3/8 2 1/8 1 3/8 1/2 2 HSE-30A 41.00025 as calculated per ARI Standard 450-99 HSE-3 has 1⁄2" center fitting *Constructed with three water fittings.1 70.1 6 5/8 27 7/8 2 1/2 21 1/2 2 2 1/8 1 3/4 1 1/8 5/8 1/2 1 HSE-7 8.7 29.7 99.2 10 3/4 64 3/8 3 57 2 1/8 2 1/8 1 3/4 2 1/8 1 3/8 1/2 3 HSE-50A 63. outlet 10 T fluid out D Q refrig.2 8 5/8 51 1/8 3 45 2 1/8 1 3/4 1 3/8 1 5/8 1 1/8 1/2 2 HSE-25A 34.0 20 116 5 3/4 90 1/4 13 7/8 — 10 5 1/8 3 5/8 3/4 10 flange HSE-400 594. outlet R *HSE2 & HSE3 E T fluid out F E D E T fluid in .8 6 5/8 33 3/8 2 1/2 27 1/2 2 2 1/8 1 3/4 1 3/8 7/8 1/2 1 1/4 HSE-15 17.4 510.Shell-and-Tube Horizontal Super Efficient Water-Cooled Condensers Condensers Shell-and-Tube Super Efficient Condensers Cleanable.6 344.2 12 3/4 109 5/8 3 1/2 92 1/2 5 1/16 — 6 5/8 3 5/8 2 1/8 3/4 5 HSE-150 231.5 60. Clean ratings: As tested per ARI Standard 450-99 † Tubing has high performance extended surface Fouled ratings: Include a additive fouling coefficient of 0.3 12 3/4 66 3/4 3 1/2 56 1/2 2 3/4 4 1/4 2 3/8 3 1/8 2 1/8 1/2 4 HSE-80 110.3 5.7 203.5 2.1 82.1 265.Menu HSE .1 40.1 5 27 1/8 2 22 1 5/8 1 3/4 1 3/8 5/8 1/2 3/8 3/4* HSE-3* 4.7 162.7 418.3 2.4 325.4 9.6 14 113 3/4 5 3/8 90 5/8 10 7/8 — 8 7/8 3 5/8 2 5/8 3/4 6 flange HSE-200 280.8 8 5/8 33 3/8 3 27 2 1/8 1 3/4 1 3/8 1 5/8 1 1/8 1/2 2 HSE-20A 33.80 Q refrig.7 6 27 1/8 2 22 1 7/8 1 3/4 1 3/8 7/8 5/8 3/8 3/8* HSE-5 8. for general applications Design Features and Ratings Models Nominal HP Clean Dimensions Fouled D L A Connections (inches) B E F R P (ids) Q (ids) S (fpt) T (fpt) HSE-2* 3.6 14.0 10 3/4 53 3/8 3 45 2 1/8 2 1/8 1 3/4 2 1/8 1 3/8 1/2 2 1/2 HSE-40A 48.3 3.60 HSE .0 12 3/4 109 5/8 3 1/2 92 1/2 5 1/16 — 6 5/8 3 1/8 2 1/8 3/4 5 HSE-125 162.3 20 116 5 3/4 90 1/4 13 7/8 — 10 4 1/8 3 5/8 3/4 10 flange HSE-350 529.1 18 116 5 3/8 90 5/8 12 7/8 — 10 4 1/8 3 1/8 3/4 8 flange HSE-300 463.4 10 3/4 64 3/8 3 57 2 1/8 2 1/8 1 3/4 2 5/8 1 5/8 1/2 3 HSE-60 82.2 24 123 5 5/8 90 1/8 15 7/8 — 13 1/2 5 1/8 4 1/8 3/4 12 flange HSE-500 805. L B P refrig.70 HSE . 3 13 2.6 812 400 150 HSE-150 271 86 858 1.7 48 400 150 HSE-5 20 2.35 2000 400 150 HSE-300 601 170 1702 1.3 123 400 150 HSE-20A 63 10. 11 .8 96 400 150 HSE-10 23 3.1 66 400 150 HSE-7 24 2.Menu HSE .1 121 4.6 193 400 150 HSE-30A 102 15 154 4.4 34 6.7 107 3. outlet T fluid inlet 13" 3/4" NPT drain (2) 9/16" Dia.4 480 400 150 HSE-80 157 29 295 4.Shell-and-Tube Horizontal Super Efficient Water-Cooled Condensers Models Pumpdown Capacity (lbs.3 13 6.0 36 400 150 HSE-3 16 1.2 184 400 150 HSE-25A 61 12. Max. inlet A S safety HSE-150 HSE-350 HSE-200 HSE-400 HSE-250 HSE-500 D HSE-300 • 23 HSE models.8 751 400 150 HSE-125 239 64 643 1.36 2800 350 150 HSE-400 914 228 2279 1.34 3300 350 150 HSE-500 791 286 2855 1. outlet L R B P refrig.0 355 400 150 HSE-60 176 22 221 4.6 518 400 150 HSE-100 268 51 509 1. epoxy coated.3 1300 400 150 HSE-200 356 114 1139 1. Water Pressure Drop (psi) Shipping Weight (lbs) Condensers Working Pressure (psi) Shell Side Tube Side HSE-2 12 1.34 3700 350 150 L • Horizontal. R22) Waterflow (gpm) Min.6 89 400 150 HSE-15 40 4.25 2600 350 150 HSE-350 550 194 1944 1.6 461 400 150 HSE-70 167 25 255 4. cleanable shell and tube design B P refrig. water plates to facilitate cleaning • Custom models available through 800 horsepower R TAG • Smaller footprint equals less space requirement • Epoxy coated tube sheets to prevent pitting caused by galvanic action A S safety E T fluid inlet Q refrig.7 47 8. 2 thru 500 horsepower 3/4" NPT drain T fluid outlet 78" R E 18" Q refrig.5 348 400 150 HSE-50A 118 19 188 7.4 23 6.3 1600 400 150 HSE-250 449 143 1434 1. inlet R • New high tech enhanced copper tube geometry D HSE-100 and HSE-125 T fluid outlet • Removable.0 291 400 150 HSE-40A 127 15 154 6.7 27 3. 5 15.3 8 5/8 46 1/2 2 9⁄16 39 1/2 2 1/8 2 1/4 1 1 3/8 78 1/2 1 1/4 SST-1500A 24.9 12 3/4 65 1/2 3 1/4 56 1/2 2 1/8 3 1/4 1 3/8 2 5/8 1 3/8 1/2 2 1/2 SST-4005A 55.6 14 66 7⁄8 3 1/4 56 1/2 2 3/4 4 1/4 2 3/8 2 5/8 1 3/8 1/2 3 SST-4505A 65.9 14 107 3/4 3 1/2 92 5 9⁄16 5 3/4 – 3 1/8 2 5/8 3/4 5 SST-120-1408A 196.0 33.3 6 5/8 21 3/8 2 1⁄16 16 1 2 5/8 78 5/8 3/8 3/4 SST-300A 5.2 0.8 8 5/8 28 1/2 2 1/2 21 1/2 1 1/2 2 1/4 1 1 3/8 78 1/2 1 1/4 SST-755A 9.9 14 66 7⁄8 3 1/4 56 3/4 2 3/4 4 1/4 2 3/8 3 1/8 2 1/8 1/2 4 SST-7005A 97. inlet TAG 12 S (fpt) A S safety SST-4005A SST-7005A SST-5005A SST-8005A SST-6005A Q refrig.6 6 21 1/2 2 1/8 18 1 5/8 1 3/4 1 3/4 5/8 1/2 1/2 1/2 SST-200A 3.0 55.5 60.0 33. F T fluid out D T fluid in E thruSST-3505A SST-75A E .8 5 21 1/8 2 18 1 1/2 1 3/4 1 3/4 1/2 1/2 3/8 3/8 SST-100A 1.1 14 159 4 139 5 9⁄16 7 1/2 – 4 1/8 3 1/8 3/4 6 flange Clean ratings: As tested per ARI Standard 450-99 † Tubing has high performance extended surface Fouled ratings: Include a additive fouling coefficient of 0.6 3.0 22. .Menu Condensers SST .5 15. outlet .0 10.5 8 5/8 52 2 9⁄16 45 1/2 2 1/8 2 1/4 1 1 3/8 1 1/8 1/2 1 1/2 SST-1555A 24.0 22.7 12 3/4 65 1/2 3 1/4 56 1/2 2 1/8 3 1/4 1 3/8 2 1/8 1 3/8 1/2 2 1/2 SST-3005A 45.5 27.8 7.4 14 66 7⁄8 3 1/4 56 2 3/4 4 1/4 2 3/8 3 1/8 1 5/8 1/2 4 SST-6005A 82.7 8.1 10 3/4 65 1/4 3 56 1/2 2 1/2 3 1 3/8 2 1/8 1 1/8 1/2 2 SST-2026A 30.7 14 66 7⁄8 3 1/4 56 1/2 2 3/4 4 1/4 2 3/8 2 5/8 1 5/8 1/2 4 SST-5505A 75. S safety A T fluid out T fluid out F E E TAG D SST-75A thru SST-3505A Q refrig.2 10 3/4 65 1/4 3 56 1/2 2 1/8 3 1/4 1 3/8 2 5/8 1 3/8 1/2 2 1/2 SST-3028A 45.6 222.0 14 66 3/4 3 1/4 56 2 3/4 4 1/4 2 3/8 3 1/8 2 1/8 1/2 4 SST-8005A 110. E T fluid in T fluid in L R B P refrig. General service applications Design Features and Ratings Models Nominal hp Clean Dimensions (inches) Fouled D L A B Connections (inches) E F R P (ids) Q (ids) T (fpt) SST-75A 1.7 1.0 36.9 6 5/8 27 3/8 2 1⁄16 22 1 2 5/8 78 5/8 3/8 3/4 SST-500A 7.7 10 3/4 65 1/2 3 56 1/2 2 1/8 3 1/4 1 3/8 2 1/8 1 3/8 1/2 2 1/2 SST-2527A 37.0 48.5 100.4 124.2 14 107 3/4 3 1/2 92 5 9⁄16 5 3/4 – 3 5/8 2 5/8 3/4 5 SST-150-1410A 210. inlet .00025 as calculated per ARI Standard 450-99 L R SST100 B P refrig.Shell-and-Tube High Pumpdown Condensers Shell-and-Tube Condensers High pumpdown.2 12 3/4 65 1/2 3 1/4 56 1/2 2 1/8 3 1/4 1 3/8 2 5/8 1 3/8 1/2 2 1/2 SST-3505A 50.0 14 131 3/4 3 1/2 115 1/2 5 9⁄16 5 3/4 – 3 5/8 2 5/8 3/4 5 SST-200-1412A 268. outlet .6 72.5 27.1 155.1 12 3/4 65 1/4 3 1/4 56 1/2 2 1/2 3 1 3/8 2 1/8 1 1/8 1/2 2 SST-2505A 37.5 8 5/8 40 1/2 2 9⁄16 33 1/2 1 1/2 2 1/4 1 1 3/8 78 1/2 1 1/4 SST-1000A 16.5 10 3/4 53 1/4 3 44 3/4 2 1/2 3 1 3/8 1 5/8 1 1/8 1/2 1 1/2 SST-2005A 30.2 5.0 14 66 7⁄8 3 1/4 56 1/2 2 3/4 4 1/4 2 3/8 2 5/8 1 5/8 1/2 3 SST-5005A 70.5 2.0 51.0 40.2 14 66 3/4 3 1/4 56 2 3/4 4 1/4 2 3/8 3 1/8 2 1/8 1/2 4 SST-100-1408A 159.2 8 5/8 28 2 5/8 21 1/2 1 1/2 2 1/4 1 1 1/8 5/8 1/2 1 1/4 SST-750A 10.1 81. straight tube water channels Epoxy-coated tube sheets to prevent pitting caused by galvanic action Generous pumpdown capacities Custom models available through 800 horsepower 28 SST models.4 4. inlet TAG A S safety SST-100-1408A SST-120-1408A SST-150-1410A T fluid outlet F B P refrig.3 4.0 18.5 400 450 150 SST-4005A 244 14.0 1.5 180 450 150 SST-1555A 111 8.7 26.0 80.0 30.7 4. Shipping Weight (lbs) Working Pressure (psi) Shell Side Tube Side SST-75A 9 0.7 1176 450 150 SST-150-1410A 416 56.8 3.1 4.4 4.4 4.8 4.7 39 450 150 SST-200A 15 2.0 16.3 563.3 522.7 52 450 150 SST-300A 21 2.3 519 450 150 SST-5005A 233 18. outlet L P refrig.7 548 450 150 SST-8005A 205 29.0 0.2 5.8 1505 450 150 Industry’s most widely used and trusted model Heavy duty.3 144 450 150 SST-1000A 59 6.5 90 450 150 SST-750A 32 4. shell and tube design Nominal ratings and sizes to handle the most demanding requirements Removable.7 71 450 150 SST-500A 35 2.0 272 450 150 SST-2005A 138 8.2 4.4 2.Menu SST .4 144.1 100.5 313 450 150 SST-2026A 208 8.7 2.2 413 450 150 SST-3005A 128 12.7 1298 450 150 SST-200-1412A 474 64.0 80.0 80.0 3.8 428 450 150 SST-2505A 135 10.8 187. Condensers Water Pressure Drop (psi) Max.0 6.7 489 450 150 SST-4505A 237 17.6 542 450 150 SST-7005A 214 26.5 3.3 643.7 1136 450 150 SST-120-1408A 316 64.1 4.8 596 450 150 SST-100-1408A 342 52.0 350 450 150 SST-3028A 198 12.0 2.5 294.1 100.4 109 450 150 SST-755A 53 3.4 28 450 150 SST-100A 17 0.3 3.1 261. inlet F B T fluid in A S safety E D F SST-200-1412A E T fluid outlet Q refrig. R22) Waterflow (gpm) Min. outlet T fluid inlet 13 .8 521 450 150 SST-6005A 224 22.4 2. horizontal.0 345 450 150 SST-2527A 205 10.3 643.7 67.8 122.6 4.1 221.7 527 450 150 SST-5505A 230 20.9 4.0 1.5 4.1 201. heavy wall.4 20.1 100. water plates to facilitate cleaning All copper.9 159 450 150 SST-1500A 65 8.1 448 450 150 SST-3505A 199 13.0 1.Shell-and-Tube High Pumpdown Condensers Models • • • • • • • • • Pumpdown Capacity (lbs. epoxy-coated.4 3.0 70.4 111. 3⁄4 through 200 horsepower L TAG F D Q refrig.1 3.7 2.1 100.7 4. 4" W Working Pressure 450 PSIG CND-1M-CB 0.97 20.95 1.65 6.) "D" "A" "B" "C" Working Pressure 500 PSIG CND-03S-CB 0.95 1.8 CB27-24H S33 32870 0071 3 7/8" 7/8" 9. (lbs.95 1.97 20.4 CB27-44H S52 32870 0056 2 1-1/8" 1-1/8" 15.2" H x 4.71 CND-7.97 9.5 CB52-40H S52 32870 7552 2 1-1/8" 1-1/8" 20. 195°F EGT.65 6.62 20.84 CND-2M-CB 1.62 20.5 CB52-50H S52 32870 7552 3 1-1/8" 1-1/8" 24.2 6.78 Frame Size 12.97 9.95 1.95 CND-6L-CB 6 CB52-30H S52 32870 7552 1 1-1/8" 1-1/8" 19.05 4.58 3.58 3.8 CB27-12H S15 32870 0075 4 5/8" 5/8" 6.95 1.97 9.4 9.95 1.43 CND-30XL-CB 33 CB76-60H S89 32870 5095 2 2-1/8" 2-1/8" 75 7.62 20.5M-CB 1.1" W Dry Wt.3 5.43 CND-15XL-CB 15 CB76-30H S89 32870 0095 8 2-1/8" 2-1/8" 45.97 9.84 CND-3M-CB 3.) Water Inlet/ Outlet (W) Frame Size 8.4 0.General Service Single-Circuit CND-CB Single-Circuit Condensers are copper-brazed.58 3.62 20.5 0.7" H x 4.5L-CB 7.15K BTUH per HP.71 Frame Size 20.4 0.6" W Working Pressure 435 PSIG CND-20XL-CB 20 CB76-40H S89 32870 0095 9 2-1/8" 2-1/8" 55.97 20.95 0.62 20.43 Frame Size 24.37 2.95 1.58 3.3" H x 7.97 20.72 1.83 1.5 0.43 CND-60XL-CB 58 CB76-100H S89 32870 5095 4 2-1/8" 2-1/8" 113.6 4.62 20.5 1.23 0.27 1.58 3.Menu CND-CB .95 1. 105°F SCT R22. please contact Customer Service.05 1.95 1.43 CND-25XL-CB 27 CB76-50H S89 32870 0096 0 2-1/8" 2-1/8" 65.4" W CND-4L-CB 4 CB52-20H S52 32870 7552 0 1-1/8" Working Pressure 450 PSIG 1-1/8" 14. 85°F EWT.3 CB14-12H S15 32870 5256 7 5/8" 5/8" 2.26 3.7 0.2" H x 3.58 3.4 CB14-14H S15 32870 0075 5 5/8" 5/8" 3. Model Nominal HP* Description Condensers Four Frame Sizes Part Number Connections (ids) Refrigerant Inlet/Outlet (P/Q) Dimensions (in.12 0.95 1.97 20.6 2.43 *Nominal HP .71 CND-10L-CB 9.4 4.9 3.58 3. 5°F Subcooling.6 0.71 CND-15L-CB 14 CB52-80H S52 32870 7552 5 1-1/8" 1-1/8" 43.2 2.3 CB27-18H S33 32870 0071 2 7/8" 7/8" 7.84 CND-5M-CB 5 CB27-64H S52 32870 0056 4 1-1/8" 1-1/8" 21.77 7.1 1.°F/BTU Water pressure drop less than 10 Psig For performance with other refrigerants and/or fluids other than water.95 1.17 0.8 2 0.71 CND-10XL-CB 10 CB76-20H S89 32870 0095 7 2-1/8" 2-1/8" 36.84 CND-1. 14 P (Ref gas in) W (Water out) Q (Ref Liquid out) W (Water in) .97 9.61 1.Copper-Brazed Plate Heat Exchangers .8 11.94 1.84 1.43 CND-45XL-CB 46 CB76-80H S89 32870 5095 3 2-1/8" 2-1/8" 94.3 1.78 CND-05S-CB 0.0001 Ft2/hr.62 20. 95°F LWT FF=0.28 0.49 1.16 5. 95 3.95 1. 5/8" 1-1/8" 12.2 AC-30-20EQ R52 32870 6134 7 7/8".) "D" "A" "B" "C" Working Pressure 450 PSIG CND-1M-AC 1 AC-30-10EQ R52 32870 6134 6 7/8". 0. 0.95 1.58. 5/8" 1-1/8" 9. 5/8" 1-1/8" 16.62 20.95 1.3 14.56 CND-7.35 CND-5L-AC 5 AC-70-26MY S21 32870 6720 8 1-1/8". 1.35 CND-3L-AC 3 AC-70-18MY S21 32870 6720 6 1-1/8". 1.4 6.4 17.05.56 Frame Size 20.5 0.95 1.35 CND-20L-AC 20 AC-70-90MY R49 32870 6721 6 1-3/8".35 CND-15L-AC 15 AC-70-68MY S25 32870 6721 4 1-3/8".3 4.2 1.62 20.58 CND-100XXL-AC 96 AC-250-120EQ Y57 32870 6199 3 2-5/8". 1-1/8" 2-1/8" 75 6.95 1. 0.54 10.35 CND-10XL-AC 11 AC-120-30EQ S46 32870 6145 1 2-1/8".95 1.5 0.1 1. 1.8" H x 3.05.58.3" H x 7.35 CND-8L-AC 9 AC-70-42MY S24 32870 6721 0 1-3/8".95 1.7" H x 4.18 4.6 AC-30-70EQ S21 32870 6135 2 1-1/8".2 2.5 0.3 0.43 CND-35XL-AC 35 AC-120-90EQ S62 32870 6145 5 2-1/8".56 CND-10M-AC 10.6 10.5M-AC 7.97 18.) Water Inlet/ Outlet (W) Frame Size 12.05. 95°F LWT FF=0.6 1. 195°F EGT. please contact Customer Service.6 2.9 3.97 18.58.95 1.35 CND-10L-AC 11 AC-70-50MY S24 32870 6721 1 1-3/8". 1/2" 7/8" 8.58.58 *Nominal HP .High Efficiency Single-Circuit CND-AC Single-Circuit Condensers are copper-brazed and feature a built-in distributor.9 0.43 CND-15XL-AC 15 AC-120-40EQ S46 32881 0214 0 2-1/8".5 9.13 23. Model Nominal HP* Description Part Number Connections (ids) Refrigerant Inlet/Outlet (P/Q) Three Frame Sizes Dimensions (in.5 0.9 7.2 0.58.4 AC-30-100EQ S21 32870 6135 4 1-1/8".95 1.97 18.54 10.43 CND-20XL-AC 18 AC-120-46EQ S46 32870 6145 2 2-1/8". 0.6 AC-30-50EQ S21 32870 6135 0 1-1/8".1 0. 5°F Subcooling.58 CND-80XXL-AC 80.95 3.15K BTUH per HP.18 4.95 1.95 3.54 10.43 Frame Size 24.9 1.62 20. 85°F EWT. 1-3/8" 3" Victaulic 233.54 10. 1. 7/8" 2-1/8" 45. 7/8" 1-3/8" 38.62 20.58.56 CND-5M-AC 5. 0.9 AC-250-100EQ Y55 32870 6199 2 2-5/8". 1-1/8" 2-1/8" 104. 1-1/8" 2-1/8" 137.95 1.95 3. 7/8" 1-3/8" 49. 1-1/8" 3" Victaulic 127.0001 Ft2/hr.95 3.97 18.95 3.56 CND-3M-AC 3.5" H x 12.62 20.13 23.4" W Working Pressure 450 PSIG CND-2L-AC 2 AC-70-14MY S21 32870 6720 4 1-1/8".05.95 1. 7/8" 2-1/8" 55.Menu CND-AC .13 23. 5/8" 1-1/8" 12. 5/8" 1-3/8" 29. 1-3/8" 3" Victaulic 163.43 CND-40XL-AC 40 AC-120-106EQ S62 32870 6145 6 2-1/8".95 1.97 18.1 12.°F/BTU Water pressure drop less than 10 Psig For performance with other refrigerants and/or fluids other than water. 1-1/8" 2-1/8" 90. 1-1/8" 2-1/8" 61.6 0.62 20.43 CND-30XL-AC 29 AC-120-76EQ S62 32870 6145 4 2-1/8".7" W Condensers Dry Wt. 5/8" 1-1/8" 22.2 4. 105°F SCT R22.54 10.1 1.43 CND-55XL-AC 56 AC-120-150EQ S76 32870 6145 8 2-1/8".43 CND-65XL-AC 66 AC-120-180EQ S76 32870 5589 6 2-1/8".95 1.97 18.95 3.97 18. 5/8" 1-1/8" 8. 1-3/8" 2-1/8" 191. 3/8" 7/8" 6.1 8.2 1.95 3.54 10.3 1. 5/8" 1-1/8" 25. P W (Ref (Water gas in) out) Q W (Ref Liquid (Water in) out) 15 . 0.2 3.95 3.43 CND-25XL-AC 23 AC-120-60EQ S62 32870 6145 3 2-1/8".7 7.2 6.58.43 CND-45XL-AC 46 AC-120-124EQ S62 32870 6145 7 2-1/8".2 0. 1-1/8" 2-1/8" 119.1 9.6 1. 0. (lbs.4 1.18 4. 0.3 11.58.62 20.5 13.97 18.3 AC-30-30EQ S09 32870 6134 8 7/8".1 1.3 AC-250-60EQ Y51 32870 6199 0 2-5/8".62 20.5 5.6 12 0.6" W Working Pressure 450 PSIG Frame Size 33.5 7.58 CND-65XXL-AC 64.2 2. 1-3/8" 2-1/8" 162.58.AlfaChill Copper-Brazed Plate Heat Exchangers .1 0. 5/8" 1-1/8" 19.7 6.1 AC-250-80EQ Y55 32870 6199 1 2-5/8".35 CND-25L-AC 27 AC-70-118MY R49 32870 6721 8 1-3/8".13 23.2 2.4 2. 1-3/8" 3" Victaulic 198.3 0. 5/8" 1-1/8" 22.56 CND-2M-AC 2.9 2.97 18. 0.9 3.95 3.7" W Working Pressure 450 PSIG CND-50XXL-AC 47. 0.95 1.7 3 0.62 20.35 CND-12L-AC 13 AC-70-58MY S24 32870 6721 2 1-3/8".6 0. 3/8" 7/8" 4.58.62 20.4 1.6 4.18 4.7 0. 31 23. 0. 7/8" 1-3/8" 64.) Dry Wt.95.58 4.2 15.2 15.31 23.5/8" 1-3/8" 45. 1.2 1.72 11.5/8" 1-3/8" 37.95.3 AC-80-42DQ Q18 32870 6508 5 1-1/8".18.5 5.3 1.16 CND-15MW-AC2 15 AC-80-66DQ Q18 32870 6509 5 1-1/8". please contact Customer Service. 7/8" 1-3/8" 54 9. 0.18. 1.18.16 CND-25MW-AC2 25 AC-80-118DQ Q19 32870 6758 2 1-3/8".6 1. 7/8" 2-1/2" Victaulic 100 9.3 1.2 15.1 2.95.95. 1.58.0001 Ft2/hr.18.58. Q.2 15. 1-1/8" 2-1/2" Victaulic 167. 0. 0.65 CND-35LW-AC2 35 AC-130-102DQ Y97 32870 6209 9 1-5/8".89 6. W "B" front "C" front/rear Working Pressure 450 PSIG CND-7MW-AC2 6.P1/ Q1.6 1.5 AC-80-82DQ Q18 32870 6508 6 1-1/8".3 1.5 1.5/8" 1-3/8" 19.18.1 1.98.58 4.58. 15.16 Frame Size 19. 0. 1. 1. 1-3/8" 3" Victaulic 387.2 15.18.58.16 CND-9MW-AC2 9.89 6. Liquid out) W (Water out) Ref in (front plate) W (Water in) Ref out (front plate) . 5°F Subcooling.4 12.58 4.89 6.98 2.°F/BTU Water pressure drop less than 10 Psig For performance with other refrigerants and/or fluids other than water. 15.95.7" W Working Pressure 450 PSIG CND-25LW-AC2 24 AC-130-70DQ Y97 32870 6209 7 1-5/8". 1-1/8" 2-1/2" Victaulic 150.65 CND-70LW-AC2 68 AC-130-202DQ Y74 32870 6210 4 2-1/8".89 6.95. 1. 0. 0.98. 15.95.98.65/12.18.5/8" 1-3/8" 31.65/12. 0.18.31 23. 24. 2. (lbs. 15. 2.67" W Condensers Dimensions (in.5 1. Model Nominal HP* Description Part Number Three Frame Sizes Connections (ids) Front Plate Ref.72 11.8 11. 1.65 CND-30LW-AC2 28 AC-130-82DQ Y97 32870 6209 8 1-5/8".31 23. 1-3/8" 3" Victaulic 315.73 CND-110XXL-AC2 110 AC-250-142DQ Y81 32870 5600 9 2-5/8".3 7.18. 24.42.16 CND-20MW-AC2 18.1 18. 2. 1.3 20. 0.15K BTUH per HP.31 23. 0.1 6.65/12.18.) "D" "A" P.42.42.65/12. 15.42.5 AC-80-30DQ Q18 32870 6758 0 1-1/8".9 2.65/12.76 Frame Size 33.18.95. 0.65 CND-80XXL-AC2 80 AC-250-102DQ Y77 32870 6199 4 2-5/8".72 11.16 CND-22MW-AC2 22 AC-80-98DQ Q19 32870 6758 1 1-3/8".05.42.98.05 6. 0. 1. 7/8" 2-1/2" Victaulic 83.2 11.95.42.72 11.1 1.7 6.72 11.5 1. 1-3/8" 3" Victaulic 351. 0.8 8. 1-1/8" 3" Victaulic 237 14.72 11.89 6.89 6.98.5/8" 1-3/8" 25.65 CND-50LW-AC2 48 AC-130-142DQ Y74 32870 6210 1 2-1/8".3 3.65/12.18.58 4.58 4. 1-1/8" 3" Victaulic 201.18.05 6.Q2** Rear Plate Water In/ Out W Frame Size 15.4 22.89 6. 24. 15. 7/8" 2-1/2" Victaulic 73.32 2. 2.05. 15. 1.58 4. 24.31 23. 1. 1.65/12. 1-3/8" 3" Victaulic 279 16.95.2 15.65 CND-55LW-AC2 54 AC-130-162DQ Y74 32870 6210 2 2-1/8". 2.95. 1.58. 1-1/8" 2-1/2" Victaulic 134.2 15. 1. 15.75 CND-130XXL-AC2 133 AC-250-182DQ Y81 32870 5601 1 2-5/8".High Efficiency Dual-Circuited models CND-AC2 Two Circuit Condensers are copper-brazed and feature a built-in distributor.72 CND-100XXL-AC2 97 AC-250-122DQ Y77 32870 6199 5 2-5/8". 1. 1. 1.2" H x 9.5" H x 12. In/ Out P2. 24. 85°F EWT. 0.42. 2.95. 1.74 CND-120XXL-AC2 120 AC-250-162DQ Y81 32870 5583 3 2-5/8". 24.76 2. 1.05 6. 1.AlfaChill Copper-Brazed Plate Heat Exchangers .58.16 CND-10MW-AC2 12 AC-80-54DQ Q18 32870 6508 7 1-1/8".4 4.05 6.8 11 1. 1.4 14.65 CND-40LW-AC2 42 AC-130-122DQ Y74 32870 6210 0 2-1/8".2 15.05 6.95. 16 P2 (Ref gas in) P1 (Ref gas in) Q1 (Ref Liquid out) Q2 (Ref.7" W Working Pressure 450 PSIG *Nominal HP .95.05.6 1.72 11. 105°F SCT R22.76 CND-145XXL-AC2 143 AC-250-202DQ Y81 32870 0073 0 2-5/8".05.05.9 1. 1-1/8" 2-1/2" Victaulic 116.42.Menu CND-AC2 .18.54 2.05.65 CND-60LW-AC2 60 AC-130-182DQ Y74 32870 6210 3 2-1/8".05 6.18. 95°F LWT FF=0.18.95.58 4. 195°F EGT.2 16.89 6.35" H x 7. 1-1/8" 2-1/2" Victaulic 184 18. 0.5 1. inlet S safety A T fluid out F TAG MSE100 through MSE5005 Q refrig.6 10 3/4 65 3 56 1/2 2 1/8 2 3/4 2 1/4 2 5/8 1 3/8 1/2 2 1/2 MSE-4005 45.6 2.6 10 3/4 65 3 56 1/2 2 1/8 2 3/4 2 1/4 2 5/8 1 5/8 1/2 2 1/2 MSE-4505 57.7 6 5/8 34 1/4 2 28 2 2 1/4 2 1 3/8 7/8 3/8 1 1/4 MSE-1005 11.9 8 5/8 64 1/2 3 57 2 1/8 2 1/4 2 1/4 2 1/8 1 3/8 1/2 2 MSE-3006 39.0 4.6 45.7 44.9 15.2 10 3/4 77 3 68 1/2 2 1/8 2 3/4 2 1/4 2 5/8 1 5/8 1/2 2 1/2 MSE-5005 59.Shell-and-Tube Marine Service Condensers Condensers Cupronickel Marine Service Condensers Design Features and Ratings Models Nominal hp Clean Dimensions (inches) Fouled D L A B Connections (inches) E F R P (ids) Q (ids) S (fpt) T (fpt) MSE-100 1.7 10 3/4 77 3 68 1/2 2 1/8 2 3/4 2 1/4 2 5/8 1 5/8 1/2 2 1/2 MSE-6505 71. Fouled ratings: Include fouling factor coefficient of 0. L B R P refrig.8 33.1 25.6 8 5/8 76 1/2 3 69 2 2 1/4 2 1/4 2 5/8 1 3/8 1/2 2 1/2 MSE-3305 44.3 6 5/8 21 3/4 2 16 1 2 1 3/4 7/8 5/8 3/8 3/4 MSE-500 6.0 58.6 3.2 12 3/4 78 3/4 3 1/2 68 1/2 2 3/4 4 1/4 2 3/8 3 1/8 2 1/8 1/2 4 MSE-7505 84. outlet D E E T fluid in 17 .7 9.6 6 5/8 21 3/4 2 1/8 16 1 2 1 3/4 1 1/8 5/8 3/8 3/4 MSE-750 9.2 103.8 8 5/8 40 1/4 2 1/2 33 1/2 2 1/8 2 2 1/4 1 5/8 1 1/8 1/2 2 MSE-2005 26.8 66.5 6.8 12 3/4 133 1/2 3 1/2 116 1/2 — 6 5/8 6 5/8 3 1/8 2 1/8 1/2 5 mpt MSE-120HP 137.6 12 3/4 133 1/2 3 1/2 115 3/4 — 6 5/8 6 5/8 3 5/8 2 1/8 1/2 5 mpt †Tubing has high performance extended surface Zinc plates are available for all MSE models.2 99.0 6 21 5/8 1 5/8 16 3/8 1 7/8 2 1 5/8 5/8 1/2 3/8 1/2 MSE-200 2.0 6 21 5/8 1 5/8 16 3/8 1 7/8 2 1 5/8 7/8 5/8 3/8 1/2 MSE-300 4.7 31.4 32.2 8 5/8 64 1/2 3 57 2 1/8 2 1/4 2 1/4 2 1/8 1 1/8 1/2 2 MSE-2505 33. Indicate by adding “Z”after model number (MSE-750Z) Clean ratings:As tested per ARI standard 450-99.00025 as calculated per ARI standard 450-99.3 1.Menu MSE .1 12 3/4 78 3/4 3 1/2 68 1/2 2 3/4 4 1/4 2 3/8 3 1/8 2 1/8 1/2 4 MSE-100HP 132.5 6 5/8 40 1/4 2 33 2 2 1/4 2 1 3/8 7/8 3/8 1 1/4 MSE-1500 19.7 20. horizontal.22 22.7 286 400 150 MSE-3305 133 20.67 206.66 16.0 49 400 150 MSE-300 14 1.88 3.88 708. inlet R TAG S safety A MSE6505 MSE7505 F T fluid out E D Q refrig.51 5.84 5.6 77 400 150 MSE-750 24 4. Water Pressure Drop (psi) Max.00 1. Indicate by adding “Z” after model number (MSE-750Z) • • • • • • • • • • • 18 Marine service Heavy duty.51 2.29 123. Shipping Weight (lbs) Working Pressure (psi) Shell Side Tube Side MSE-100 14 0. provides liquid seal in heavy seas Custom designs to 500 horsepower on request 18 MSE stock models.44 2.90 2. 1 to 125 horsepower L B P refrig.74 5.2 533 400 125 MSE-100HP 358 64.15 221.1 1158 400 125 † Tubing has high performance extended surface Zinc plates are available for all MSE models.48 14.43 44. heavy wall.38 3.9 265 400 150 MSE-3006 99 14.30 5. shell-and-tube design Nominal ratings and sizes to handle the most demanding requirements Solid cupronickel tube sheets to prevent pitting caused by galvanic action Removable.3 1133 400 125 MSE-120HP 344 70. solid cupronickel or solid brass water plates to facilitate cleaning All 90/10 cupronickel.82 1.43 44.0 35 400 150 MSE-200 12 1.61 6.7 388 400 150 MSE-5005 155 22.77 3.67 5.15 221. inlet TAG T fluid out B A S safety MSE100HP MSE120HP Q refrig.5 343 400 150 MSE-4505 160 20.30 2.74 7.5 254 400 150 MSE-2505 79 16.67 206. straight tube water channels Sacrificial zinc anode available upon request Generous pumpdown capacities Dual refrigerant outlets.49 324.80 287. R22) Condensers Waterflow (gpm) Min. outlet F D T fluid inlet E .4 181 400 150 MSE-2005 86 13.98 500.96 3.9 58 400 150 MSE-500 15 2.15 7.8 338 400 150 MSE-4005 129 22.74 2.38 73.3 107 400 150 MSE-1005 29 4.Menu MSE .4 121 400 150 MSE-1500 49 7.1 517 400 125 MSE-7505 215 32.77 147.24 162. outlet T fluid in L R P refrig.Shell-and-Tube Marine Service Condensers Models Pumpdown Capacity (lbs.0 394 400 150 MSE-6505 225 28. 10 through 80 horsepower L B A P refrig. Water Pressure Drop (psi) Max. inlet S safety T fluid out F TAG D Q refrig.4 555 350 300 HP-60A 213 21 214 5.0 205 350 300 HP-30A 160 12 121 4. high water pressure application Design Features and Ratings Models Nominal hp Clean HP-10 13 Dimensions (inches) Fouled 11 D L 8 5/8 A 40 5/8 3 1/4 B E 32 5/8 1 3/8 Connections (inches) F 2 1/2 R P (ids) 1 3/8 1 3/8 Q (ids) 7/8 S (fpt) 1/2 T (fpt) 1 1/2* HP-15 16 1/2 14 1/2 8 5/8 52 5/8 3 1/4 44 5/8 1 5/8 2 1/2 1 3/8 1 3/8 7/8 1/2 1 1/2 HP-20 23 20 8 5/8 64 5/8 3 1/4 56 5/8 1 5/8 2 1/2 1 3/8 1 3/8 7/8 1/2 1 1/2 HP-30A 39 33 10 3/4 77 3 1/2 68 5/8 2 3/8 2 1/2 2 3/8 2 5/8 1 5/8 1/2 2 HP-40A 51 44 10 3/4 77 3 1/2 68 5/8 2 3/8 2 1/2 2 3/8 2 5/8 1 5/8 1/2 2 HP-50A 64 55 12 3/4 77 5/8 3 1/2 68 5/8 2 5/8 3 1/8 2 3/8 2 5/8 1 5/8 1/2 3 HP-60A 74 63 12 3/4 77 5/8 3 1/2 68 5/8 2 5/8 3 1/8 2 3/8 2 5/8 1 5/8 1/2 3 HP-80A 100 85 14 77 3/8 3 1/2 68 5/8 2 7/8 2 3/4 2 1/2 3 1/8 2 1/8 1/2 4 Clean ratings: As tested per ARI Standard 450-99 *Centerline on fittings is located 13⁄8" to the left of centerline on vessel Fouled ratings: Include a additive fouling coefficient of 0.3 125 350 300 HP-15 68 8 80 2.shell side on request • Ideal for high-rise building applications • High Performance. for containment of greater refrigerant charges • New high tech enhanced heat transfer tube surface • Epoxy-coated tube sheets and water plates to prevent pitting R caused by galvanic action • 8 HP models. horizontal. R22) Waterflow (gpm) Min. specially designed removable water plates and gaskets provide for a 300 psi waterside working pressure • High Pumpdown.4 375 350 300 HP-40A 148 16 161 4. Shipping Weight (lbs) Working Pressure (psi) Shell Side Tube Side HP-10 51 4 40 6.Menu HP .High Pressure/High Pumpdown Condensers Condensers Shell-and-Tube Condensers high pumpdown.5 575 350 300 HP-80A 243 29 295 5.6 145 350 300 HP-20 86 8 80 4. outlet E E T fluid in 19 .4 435 350 300 HP-50A 217 20 201 4. shell and tube design • High Pressure.2 755 350 300 400 psi.00025 as calculated per ARI Standard 450-99 † Tubing has high performance extended surface Models Pumpdown Capacity (lbs. 5 through 30 horsepower L B R P refrig. Especially suitable for pulp and paper mill applications Heavy duty. inlet A S safety T fluid out F TAG D Q refrig.5 82.9 164.Shell-and-Tube Stainless Steel/Corrosive Fluid Condensers Condensers Shell-and-Tube condensers for high sulfur content water and corrosive fluid applications Design Features and Ratings Models Nominal hp Clean CA-050 5 1/2 Dimensions (inches) Fouled 5 D 6 5/8 L A 39 1/4 B 4 Connections (inches) E 32 1 1/8 F R 2 3/8 P (ids) 7/8 1 1/8 Q (ids) 7/8 S (fpt) T (fpt) 1/2 3/4 CA-075 7 1/2 7 8 5/8 39 5/8 4 32 1 1/2 2 5/8 1 1 3/8 7/8 1/2 1 1/4 CA-100 10 9 8 5/8 39 5/8 4 32 1 1/2 2 5/8 1 1 3/8 7/8 1/2 1 1/4 CA-150 15 14 10 3/4 40 1/8 4 32 2 1/2 3 1/8 7/8 1 5/8 1 1/8 1/2 1 1/2 CA-200 20 18 8 5/8 76 1/8 4 68 2 1/8 3 1/8 1 2 1/8 1 1/8 1/2 1 1/2 CA-300 29 27 10 3/4 76 3/4 4 68 2 1/2 3 3/4 7/8 2 5/8 1 3/8 1/2 2 1/2 Clean ratings:As tested per ARI Standard 450-87 Fouled ratings: Include a additive fouling coefficient of 0.0 10.shell side on request • • • • • • 316 stainless steel tubes 304 stainless tubesheets.Menu CA . water plates and waterside fittings for use with corrosive fluids.0005 total) † Tubing has high performance extended surface Models Pumpdown Capacity (lbs) Waterflow (gpm) Min.9 450 350 150 400 psi.0 6.8 7.7 9.2 32.9 43.3 6.9 115 350 150 CA-075 44 2.0 190 350 150 CA-150 63 5.0 265 350 150 CA-200 83 7.3 109. outlet 20 E T fluid in E . Shipping Weight (lbs) Working Pressure (psi) Shell Side Tube Side CA-050 23 2. horizontal. shell-and-tube design Rolled tube to tube sheet joints Removable water plates to facilitate cleaning 6 CA models.00025 as calculated per ARI Standard 450-87 (.7 10.2 175 350 150 CA-100 40 3.9 305 350 150 CA-300 131 10.6 54. Water Pressure Drop (psi) Max. 22 1.52 7.°F/BTU Water pressure drop less than 10 Psig For performance with other refrigerants and/or fluids other than water.62 20.7" H x 4.57 3.62 20.05 0.4 Frame Size 20.4 CND-7M-AN 6.22 11.2 AN76-90H W16 3287000854 2" weld 2" weld 95.15 0.62 20.34 0.Menu Condensers CND-AN .7 1.62 20.62 20.69 8.19 0.5 AN27-50H S52 3287000884 1-1/8" 1-1/8" 17.97 9.4 AN52-20H S52 3287000902 1-1/8" 1-1/8" 14.95 1. 95°F LWT FF=0.09 4.35 1.43 CND-45XL-AN 46.62 20.98 3.43 *Nominal HP .97 9.95 1. Model Nominal HP* Description Part Number Three Frame Sizes Connections (ids) Ref.35 CND-14L-AN 13. (lbs.96 1.51 5.4 CND-8M-AN 7.09 5.62 20. In/Out P/Q Water In/ Out W Frame Size 12.35 0.96 6.4 CND-3M-AN 3. 5°F Subcooling.Fusion-bonded Plate Heat Exchangers The AlfaNova is a copper-free.83 1. 105°F SCT R22.95 1.83 7.97 9. P (Ref gas in) W (Water out) Q (Ref Liquid out) W (Water in) 21 . please contact Customer Service.9 AN27-70H S52 3287000999 1-1/8" 1-1/8" 22.2 AN76-50H W16 3287000910 2" weld 2" weld 73.4" W Working Pressure 435 PSIG CND-6L-AN 6.22 9.4 CND-5M-AN 5.95 1.43 CND-40XL-AN 40.10 0.95 1.97 18.5 2.2 AN76-60H W16 3287000911 2" weld 2" weld 84.1 AN52-30H S52 3287000904 1-1/8" 1-1/8" 18.22 10.95 1.4 CND-10M-AN 9 AN27-80H S52 3287001000 1-1/8" 1-1/8" 25.2 AN76-70H W16 3287000912 2" weld 2" weld 95.57 3.) "D" "A" "B" "C" Working Pressure 435 PSIG CND-2M-AN 2 AN27-20H S52 3287000880 1-1/8" 1-1/8" 8.35 CND-10L-AN 10.43 CND-50XL-AN 52.8 3.57 3.95 1. 100-percent stainless steel.2 0.1 AN76-40H W16 3287055026 2" weld 2" weld 63.62 20.) Dry Wt.6 AN52-50H S52 3287000907 1-1/8" 1-1/8" 28.22 8.15K BTUH per HP.32 0.3 0.09 1.57 3.2 AN76-80H W16 3287000853 2" weld 2" weld 95.43 CND-35XL-AN 34.4" W Dimensions (in.57 3.4" H x 7.97 9.0001 Ft2/hr.3 AN76-30H W16 3287055757 2" weld 2" weld 51.74 4.35 CND-15L-AN 14.29 0.35 Frame Size 24.57 3.97 18.97 18.2 AN27-30H S52 3287000882 1-1/8" 1-1/8" 11.97 9.2 AN76-100H W16 3287000855 2" weld 2" weld 95.43 CND-30XL-AN 28.22 2.2" H x 4.83 5. 195°F EGT.95 1.7 AN27-60H S53 3287000998 1-1/8" 1-1/8" 19.97 9.57 3.36 3.95 1. 85°F EWT.97 18.5" W Working Pressure 450 PSIG CND-15XL-AN 16.43 CND-20XL-AN 22.95 1.57 3.Alfa Nova .61 1.8 AN52-40H S52 3287000906 1-1/8" 1-1/8" 23. corrosion-resistant design.48 1.43 CND-60XL-AN 58. VSE 1/2 through VSE 2 (3) legs equally spaced 120° apart Refrig. Small package applications Design Features and Ratings Models Nominal hp Clean Dimensions (inches) Fouled D H A Connections (inches) B C P (ids) Q (ids) S (fpt) W (fpt) T (fpt) VSE 1/2 – 1/2 6 5 1 1/4 3 1/4 1 1/2 1/2 1/2 3/8 – 1/2 VSE 1 – 1 6 5 1/2 1 1/2 3 5/8 1 1/2 5/8 1/2 3/8 – 1/2 VSE 1 1/2 – 1 1/2 8 5/8 6 3/8 2 4 3/8 2 5/8 1/2 3/8 – 3/4 VSE 2 – 2 9 3/4 7 1/4 2 1/8 4 3/4 2 5/8 5/8 1/2 – 3/4 VSE 3 3 1/2 3 6 5/8 13 1 5/8 1 5/8 11 1/8 78 5/8 3/8 3/4 – VSE 5 6 5 8 5/8 13 1/2 1 3/4 4 5/8 11 1/2 1 1/8 5/8 1/2 1 – VSE 7 9 8 10 3/4 16 1/4 2 5/8 6 1/2 13 3/8 1 3/8 7/8 1/2 1 1/4 – VSE 10 13 11 16 18 3/4 4 1/2 9 13 3/4 1 3/8 78 1/2 1 1/4 – VSE 10T 12 10 8 5/8 19 1/2 1 3/4 4 5/8 17 1/2 1 3/8 78 1/2 1 1 1/2 VSE 15T 19 16 10 3/4 22 1/4 2 5/8 6 1/2 19 3/8 1 5/8 1 1/8 1/2 1 1/4 1 1/2 VSE 20T 26 22 16 23 1/4 4 1/2 9 18 1/4 2 1/8 1 3/8 1/2 1 1/2 2 Clean ratings: As tested per ARI Standard 450-99 Fouled ratings: Include a additive fouling coefficient of 0. outlet Q A Refrig.00025 as calculated per ARI Standard 450-99 † Tubing has high performance extended surface.Shell-and-Coil Vertical Condensers Condensers Vertical Super Efficient Condensers compact design. generous pumpdown.Menu VSE . inlet P B H Fluid inlet T T fluid outlet C C D 22 S safety . 4 3.9 7.9 60 7.4 28 350 250 VSE 2 11 0.7 12 350 250 VSE 1 1/2 9 0.4 24 5.2 12 3. ice makers. 1⁄2 through 20 horsepower VSE 3 through VSE 20T S safety Fluid outlet W A (3) legs equally spaced 120° apart B H Fluid outlet T C Refrig.4 3.8 18 4.3 26 350 250 VSE 5 15 1. R22) Condensers Waterflow (gpm) Min. vertical. vending machines.6 5.0 29 350 250 VSE 3 9 1.7 0. outlet .shell side on request • • Sealed construction.6 36 3.Menu VSE . Q Fluid inlet W D 23 .6 146 350 250 VSE 10T 20 3. self contained refrigeration cases • 11 VSE models.7 47 5.1 204 350 250 400 psi. Refrig.5 0.Shell-and-Coil Vertical Condensers Models Pumpdown Capacity (lbs.7 2.5 45 350 250 VSE 7 29 2.9 130 350 250 VSE 20T 96 5. shell and coil design Greatest refrigerant pumpdown capacity in a upright compact package • Special "T" models have auxiliary connection for tower applications or to reduce pressure drops • Size and efficiency make it ideal for use in small package units. Water Pressure Drop (psi) Shipping Weight (lbs) Working Pressure (psi) Shell Side Tube Side VSE 1/2 3 0.9 69 350 250 VSE 15T 36 4.6 5.6 83 350 250 VSE 10 80 3. Max.0 30 7.9 3. inlet P .6 10 350 250 VSE 1 3. 7 6.7 Max.1 5. outlet T fluid inlet C A ELT 200A D B L T fluid outlet P refrig.shell side on request ELT 100A/ELT 150A/ ELT 300A ELT 500A/ ELT 800A/ ELT 1000A L B D T fluid outlet P refrig.99 23 380 200 ELT-200A 0.46 90 380 200 Consult customer service for performance data not shown.Tube-in-Tube Compact Condensers Condensers Tube-In-Tube Condensers compact.7 6.4 33.7 6.7 Nom'l. tube-in-tube design Exceptional heat transfer utilizing enhanced tube surfaces Highest water pressure ratings. cleanable Design Features and Ratings Models Nominal hp Dimensions (inches) D L H Connections (inches) A B C P (ids) Q (ids) T (ids) ELT-100A 1 2 7/8 21 1/2 11 16 4 1/4 5 5/8 1/2 7/8 ELT-150A 1 1/2 2 7/8 27 1/2 11 21 1/2 4 1/4 5 7/8 1/2 7/8 ELT-200A 2 2 7/8 27 12 5/8 21 1/2 4 1/4 5 7/8 1/2 7/8 ELT-300A 3 4 1/4 27 17 3/4 21 1/2 4 1/4 6 7/8 5/8 1 3/8 ELT-500A 5 4 1/4 27 17 3/4 21 1/2 4 1/4 6 7/8 7/8 1 3/8 ELT-800A 8 5 1/2 27 1/2 22 1/4 21 1/2 4 1/4 6 1 3/8 7/8 1 3/8 ELT-1000A 10 5 1/2 27 1/2 22 1/4 21 1/2 4 1/4 6 1/4 1 3/8 7/8 1 5/8 Nominal HP: As tested per ARI standard 450-99 Models Waterflow (gpm) Min. inlet H Q refrig.34 48 380 200 ELT-500A 2.3 13.25 • • • • • • 21 Working Pressure (psi) Shell Side 380 Tube Side 200 ELT-150A 0.4 4.7 2. and lowest water pressure drop offered in a cleanable tube-in-tube condenser design 7 ELT models.2 5.0 20.09 85 380 200 ELT-1000A 4.49 50 380 200 ELT-800A 3.0 40.40 27 380 200 ELT-300A 1.Menu ELT .5 5. Water Pressure Drop (psi) 1. • Shipping Weight (lbs) Specially designed removable water plates and gaskets allow unsurpassed ease of servicing or cleaning without disconnecting water or refrigerant lines All copper water channels Rugged steel construction to resist tubing damage Our smallest horizontal. inlet H refrig. 6. ELT-100A 0. outlet Q fluid inlet T 24 A C . up to 10 horsepower 400 psi. 0 5.0 2. outlet 2" D 3/8 x 1" long slot A L 25 .5 13 60 420 150 KH-5X 7.0 33 135 420 150 Consult customer service for performance data not shown. 1 1⁄2 through 10 horsepower P refrig.5 13 50 420 150 KH-3X 5.Menu KHX .2 33 124 420 150 KH-10X 5.0 5.0 5. cleanable Design Features and Ratings Models KH-1 1/2X Nominal hp 1 1/2 Dimensions (inches) D L 4 3/8 21 1/4 Connections (inches) H 13 1/2 A 16 5/8 P (ids) 1/2 Q (ids) 3/8 T (fpt) 1/2 KH-2X 2 4 3/8 26 3/8 13 1/2 21 1/2 3/8 3/4 KH-3X 3 4 3/8 32 3/4 13 1/2 27 5/8 1/2 3/4 KH-5X 5 1/2 5 32 3/8 16 1/4 27 7/8 5/8 1 KH-7 1/2X 8 5 1/2 35 5/8 17 3/4 27 7/8 7/8 1 1/4 KH-10X 10 1/2 5 1/2 38 5/8 17 3/4 33 1 1/8 7/8 1 1/4 Nominal horsepower per ARI Standard 450-99 Tubing has high performance extended surface Models KH-1 1/2X Water Pressure Drop (psi) 1. inlet T water outlet H T water inlet Q refrig. Max. • • • • • Enhanced copper water tubes inside a series of four steel refrigerant tubes Ideal for replacement usage in narrow packages Threaded water connections for easy pipe fit-up Removable end plates allows access to remove mineral scale and sludge deposits 6 models.Tube-in-Tube Heavy Duty Condensers Condensers Counterflow Condensers compact.0 6.0 Waterflow (gpm) Min.5 13 Shipping Weight (lbs) 45 Working Pressure (psi) Shell Side 420 Tube Side 150 KH-2X 2. 2.0 20 90 420 150 KH-7 1/2X 5. 88 .375 .75 9.75 11.63 18.13 14.00 7.00 5.00 5.00 6.50 13.500 .00 5.50 6.00 5.375 .500 .88 .125 59 450 350 Nominal HP ratings as per ARI standard 450-99 • • • • • • High efficiency counterflow design Ideal for domestic heat pumps.25 14.750 25 SCS-30 2.50 17.06 5.50 6. (lbs) Fluid F (ods) SCH-04 .88 6.50 5.63 12.00 7.875 1.75 3.50 7.375 .50 .00 5.75 14.41 7.750 25 450 350 SCS-36CN 3.375 .Coaxial Style Water Cooled Condensers Condensers Coaxial Condensers Compact Heat pump and water cooler applications Design Features and Ratings Models Nom'l HP Dimensions (inches) Connections A B C D E G H J Refrig.25 2.75 5.75 14.50 12.00 12.19 11.875 1.00 6.00 1.75 18.500 .500 .625 .00 6.875 35 450 350 SCS-48CN 4. and water coolers Replacement models for most manufactures Copper and 90/10 Cupronickel tube models stocked UL and CSA listed 18 coaxial models from.19 5.50 16.00 19.00 15.88 6.00 5.00 19.50 15.00 6.00 4.50 13.00 6.00 6.875 1.88 6.00 6.375 .625 16 SCH-24 2.75 1.75 5.50 7.750 31 SCS-36 3.50 1.375 75 Cupronickel Models Nom'l HP Dimensions (inches) A B C D E Connections G H J Refrig.750 16 450 350 SCS-24CN 2.50 15.31 5.00 12.50 12.00 5.875 37 SCS-48 4.00 6.38 6.00 6.00 6.25 2.375 .500 .50 6.75 6.00 9.125 59 SCS-84 7.75 4.28 5.50 22.500 . R (ods) Ship Wt.125 55 SCS-60 5.500 .63 .125 55 450 350 SCS-60CN 5.50 4.00 5.00 1.75 9.625 9 SCH-12 1.50 6.38 6.500 .375 .75 .63 . (lbs) Working Pressure (psi) Fluid F (ods) Shell Tube SCH-12CN 1.50 20. R (ods) Ship Wt.13 14.25 2.625 12 450 350 SCH-18CN 1.25 2.00 5.38 10.00 8.31 5.94 .500 .88 .50 .75 14.875 1.00 4.00 6.00 6.00 4.00 6.75 3.625 12 SCH-18 1.375 .19 11.500 .375 .00 6.31 5.94 .25 2.75 6.75 9.56 4.75 9.50 17.50 4.00 6.75 18.50 1.33 1.500 .50 15.75 14.41 7.75 11.63 .875 35 SCS-42 3.63 .38 10.375 .50 1.00 10.00 5.500 .50 .75 9.00 4.25 4.00 6.625 .25 14.28 5.625 .38 .500 .75 . 1⁄3 to 7 hp Spiral SCS models Helix SCH models J H F fluid J F fluid B D G C R refrig A 26 E D R refrig G C A B E H .88 .875 1.31 6.500 .625 8 SCH-09 .500 .63 18.500 .500 .625 5 SCH-06 .00 12.500 .75 14.63 .50 .13 6.00 5.50 5.Menu SCH/SCS . 00025 ARI standard)____________ sodium chloride (NaCl)___________% THR _____________________________________Btu/hr ethylene glycol _________________% refrigerant ________________________________ calcium chloride (CaCl2)__________% pressure drop _____________________________psi other__________________________% Type If other. specify properties at inlet temperature Brazed Plate specific gravity _________________________ Shell-and-Tube thermal conductivity ____________________ viscosity (centipose) ____________________ specific heat ___________________________ Construction size: width _______________________ length____________________________ height __________________________ materials: shell ___________________________________ tube ____________________________________________ connections: refrigerant inlet ____________________________ refrigerant outlet ______________________________ specify ids. flange or flare: fluid inlet _________________________ fluid outlet _____________________________ Application ___________________________________________________________________________________________________ ___________________________________________________________________________________________________ ___________________________________________________________________________________________________ ___________________________________________________________________________________________________ ___________________________________________________________________________________________________ ___________________________________________________________________________________________________ ___________________________________________________________________________________________________ .com Customer Information Company ______________________________________________________________________________________________________ Contact Name ____________________________________________ Date __________________________________________ Phone _______________________________________________________ Fax _____________________________________________ E-Mail: _________________________________________________________________________________________________________ Performance Fluid Circulated inlet fluid temperature _______________________°F water _________________________% condensing refrigerant temperature____________°F propylene glycol________________% fouling factor (. fpt.Menu Condenser Specification Data Fax to: 708-345-3513 or e-mail: stanref.customerservice@alfalaval. 28 .Menu SST .Gasket and Endplates Cross Reference Condensers Front Gasket GASKE- Rear Gasket GASKE- Front Endplate ENDPL- Rear Endplate ENDPL- Condensers Condensers Front Gasket GASKE- Rear Gasket GASKE- Front Endplate ENDPL- Rear Endplate ENDPL- SST 75A 3156 346 4304 30 *SST 3028 256 265 148 184 *SST 75 337 346 49 30 *SST 30-460M 166 111 166 157 SST 100A 3163 3149 5040 5026 SST 3505A 2591 2984 6205 4180 *SST 100 175 184 67 58 *SST 35-520M 166 111 201 157 *SST 150 175 184 67 58 SST 4005A 111 120 210 238 SST 200A 3101 3170 5819 76 *SST 40-610M 111 120 210 238 *SST 200 193 201 85 76 SST 4505A 111 120 210 238 SST 300A 3101 3170 5819 76 *SST 45-680M 111 120 210 238 *SST 300 193 201 85 76 SST 5005A 111 120 247 238 SST 500A 3118 2584 5938 4047 *SST 50-760M 111 120 210 238 *SST 500 210 229 120 21 SST 5505A 111 120 247 238 SST 750A 3118 2584 5938 4047 *SST 55-850M 111 120 210 238 SST 750 210 229 12 21 SST 6005A 111 120 247 238 *SST 755A 3118 2584 5938 4047 *SST 60-940M 111 120 247 238 SST 755 238 247 12 21 SST 7005A 111 120 247 238 SST 1000A 1723 2953 6605 4047 *SST 70-1060M 111 120 247 238 *SST 1000 238 247 12 21 SST 8005A 111 120 247 238 SST 1500A 1723 2953 5576 4047 *SST 80-1200M 111 120 247 238 *SST 1501 2977 2584 175 4047 SST 100-1408A 120 120 2245 2245 SST 1555A 2591 2984 5907 4180 *SST 100-1500M 111 120 247 238 *SST 1555 256 265 193 184 SST 120-1408A 120 120 2245 2245 SST 2005A 2591 2984 5914 4180 *SST 126-1905M 120 120 3994 3994 *SST 2005 256 265 148 184 SST 150-1410A 120 120 2245 2245 SST 2026A 2591 2984 5914 4180 *SST 150-2250M 2254 2254 'H1039 'H1039 *SST 2026 256 265 148 184 SST 200-1412A 120 120 4335 4335 SST 2505A 2591 2984 6205 4180 *SST 200-3000M 2263 2263 'H1048 'H1048 *SST 2505 256 265 148 184 *SST 250-3750M 1679 1679 'H1057 'H1057 SST 2527A 2591 2984 6205 4180 *SST 300-4500M 1688 1688 'H1066 'H1066 *SST 2527 256 265 148 184 *SST 350-5250M 1688 1688 'H1066 'H1066 SST 3005A 2591 2984 6205 4180 *SST 400-6000M 2290 2290 'H1921 'H1921 *SST 3005 256 265 148 184 *SST 500-7500M 2290 2290 'H1921 'H1921 SST 3028A 2591 2984 6205 4180 These chart is to be used for reference purposes only. For replacement parts contact customer service with your condenser model and serial numbers. * Indicates that model is obsolete and no longer manufactured. Menu HSE/HP/CA/MSE . Condensers Front Gasket GASKE- *MSE 3006 1723 2953 6467 4104 *MSE 3305 1741 2984 6481 5114 *MSE 4005 1741 2984 6481 5114 *MSE 4505 1741 2984 6481 5114 *MSE 5005 1741 2984 6481 5114 *MSE 6505 111 120 2542 5233 *MSE 7505 111 120 2542 5233 *MSE 100Hp 4092 4092 120 120 *MSE 120Hp 4092 4092 120 120 MSE models with zinc anode may require a special rear endplate.Gasket and Endplates Cross Reference Condensers Front Gasket GASKE- Rear Gasket GASKE- Front Endplate ENDPL- Rear Endplate ENDPL- Condensers Condensers Front Gasket GASKE- Rear Gasket GASKE- Front Endplate ENDPL- HSE 2 337 346 6412 30 HP 10 Call Factory HSE 3 175 184 6717 5026 HP 15 Call Factory HSE 5 3718 3170 6229 76 HP 20 Call Factory HSE 7 3718 3170 5552 76 HP 30 Call Factory HSE 10 3718 3170 5552 76 HP 40 Call Factory HSE 15 445 247 5495 21 HP 50 Call Factory HSE 20A 2953 2584 5707 4047 HP 60 Call Factory HP 80 Call Factory *HSE 20 1723 1732 2227 21 HSE 25A 2953 2584 5707 4047 *HSE 25 1723 1732 2227 21 Front Gasket GASKE- Rear Gasket GASKE- Front Endplate ENDPL- Rear Endplate ENDPL- Rear Endplate ENDPL- HSE 30A 1741 2984 5583 4180 *HSE 30 1741 1750 2236 4180 °CA 050 355 364 2876 2885 HSE 40A 1741 2984 6900 4180 °CA 075 238 247 2911 2902 °CA 100 238 247 2911 2902 Condensers *HSE 40 1741 1750 2236 4180 HSE 50A 1741 2984 6900 4180 CA 150 256 265 2920 2948 *HSE 50 1741 1750 2236 4180 CA 200 445 247 2894 2902 HSE 60 111 120 247 238 CA 300 373 265 2939 2948 HSE 70 111 120 247 238 HSE 80 111 120 247 238 HSE 100 120 120 2245 2245 Rear Gasket GASKE- Front Endplate ENDPL- Rear Endplate ENDPL- HSE 125 120 120 2245 2245 MSE 100 3163 3149 6436 300 HSE 150 2254 2254 'H1039 'H1039 MSE 200 3163 3149 6436 300 HSE 200 2263 2263 'H1048 'H1048 MSE 300 355 364 6386 337 HSE 250 1679 1679 'H1057 'H1057 MSE 500 355 364 6386 337 HSE 300 1688 1688 'H1066 'H1066 MSE 750 436 364 6281 4461 HSE 350 1688 1688 'H1066 'H1066 MSE 1005 436 364 6281 4461 HSE 400 2290 2290 'H1921 'H1921 *MSE 1500 445 2584 5752 4104 HSE 450 2290 2290 'H1921 'H1921 *MSE 2005 1723 2953 5752 4104 HSE 500 2290 2290 'H1921 'H1921 *MSE 2505 1723 2953 5752 4104 These chart is to be used for reference purposes only. For replacement parts contact customer service with your condenser model and serial numbers. * Indicates that model is obsolete and no longer manufactured. 29 . Please consult with factory. For replacement parts contact customer service with your condenser model and serial numbers. * Indicates that model is obsolete and no longer manufactured. .Menu ELT/KHX .Gasket and Endplates Cross Reference Condensers Front Gasket GASKE- Rear Gasket GASKE- Front Endplate ENDPL- Rear Endplate ENDPL- Condensers Condensers Front Gasket GASKE- Rear Gasket GASKE- Front Endplate ENDPL- Rear Endplate ENDPL- ELT 100A 5057 5064 3055 3073 KH 11/2X 698A 698B 1840 1796 ELT 150A 5057 5064 3055 3073 KH 2X 698A 698B 1840 1796 ELT 200A 5057 5057 3055 3154 KH 3X 698A 698B 1840 1796 ELT 300A 2191 2209 3253 3280 KH 5X 706A 706B 1859 1813 ELT 500A 2191 2209 3253 3280 KH 71/2X 724A 724B 1868 1831 KH 10X 724A 724B 1868 1831 ELT 800A 2461 2470 3451 3482 ELT 1000A 2461 2470 3451 3482 *ELT 50 2092 2100 3046 3064 *ELT 75 2092 2100 3046 3064 *ELT 100 2092 2100 3046 3064 *ELT 150 2092 2100 3046 3064 *ELT 200 2092 2092 3424 3424 *ELT 300 2191 2209 3262 3280 *ELT 500 2191 2209 3262 3280 *ELT 800 2461 2470 3475 3482 *ELT 1000 2461 2470 3475 3482 30 These chart is to be used for reference purposes only. 9 Studs 8 5/8" Dia. 6 Studs 8 5/8" Dia. 12 Studs 8 5/8" Dia.Menu Condensers Gaskets ID Condensers 111 12 3/4" Dia. 6 Studs 201 355 229 120 6 5/8" Dia. 6 Studs 5" Dia. 6 Studs 12 3/4" Dia. 6 Studs 10 3/4" Dia. 12 Studs 31 . 12 Studs 175 6" Dia. 9 Studs 436 265 6 5/8" Dia. 6 Studs 382 256 6 5/8" Dia. 12 Studs 6 5/8" Dia. 12 Studs 346 210 364 238 6 5/8" Dia. 6 Studs 373 247 10 3/4" Dia. 9 Studs 445 337 5" Dia. 4 Studs 8 5/8" Dia. 4 Studs 8 5/8" Dia. 6 Studs 166 12 3/4" Dia. 4 Studs 193 6 5/8" Dia. 4 Studs 184 6" Dia. 6 Studs 10 3/4" Dia. 9 Studs 2290 25" Dia. 12 Studs 698B 706A 2074 1499 Tube-in-tube gasket no picture available 14" Dia.Menu Condensers Gaskets ID Condensers 698A 1750 1480 10 3/4" Dia. . 6 Studs 2191 21 11/16" Dia. 2 9/16" x 15 3/4" 2209 2 9/16" x 15 3/4" 1723 1066 6 5/8" Dia. 6 Studs 8 5/8" Dia. 12 Studs 8 5/8" Dia. 6 Studs 2263 16 11/16" Dia. 12 Studs 2083 706B Tube-in-tube gasket no picture available 2092 1679 724A 1 3/16" x 9 1/16" 19 11/16" Dia. 9 Studs 12 3/4" Dia. 12 Studs 32 10 3/4" Dia. 6 Studs 2254 14 11/16" Dia. 1732 1462 10 3/4" Dia. 1741 1471 8 5/8" Dia. 2100 1 3/16" x 6 5/16" 724B 1688 1057 6 5/8" Dia. 6 Studs 8 5/8" Dia. 6 Studs 3170 2984 6 5/8" Dia. 4 Studs 2953 5" Dia. 6 Studs 6 5/8" Dia. 4 Studs 8 5/8" Dia. 9 Studs 33 .Menu Condensers Gaskets ID Condensers 2461 3 1/4" x 20 1/4" 3718 3101 6 5/8" Dia. 6 Studs 3163 2977 6" Dia. 4 Studs 8 5/8" Dia. 6 Studs 10 3/4" Dia. 6 Studs 3149 2591 6" Dia. 6 Studs 3156 8 5/8" Dia. 6 Studs 2470 3 1/4" x 13 1/2" 5057 3118 2584 1 3/16" x 9 1/16" 8 5/8" Dia. 10 3/4" Dia. 12 Studs H1057 175 34 28" Dia. 9 Studs 8 1/2" Dia. 4 Studs 8 5/8" Dia. 6 Studs 8 5/8" Dia. 9 Studs 2065 H1039 120 8 5/8" Dia. 12 Studs 8 5/8" Dia. 247 49 5" Dia. 12 Studs 17 7/8" Dia 2092 8 5/8" Dia. 6" Dia. 12 Studs . 6 Studs 706 85 2119 10 3/4" Dia. 2137 12 3/4" Dia. 6 Studs H1921 328 67 6" Dia. 4 Studs 6 5/8" Dia.Menu Condensers Front Endplate ID Condensers 193 12 10 3/4" Dia. 6 Studs 24" Dia. 14 Studs H1066 22" Dia. 6 Studs 1499 6 5/8" Dia. 6 Studs 12 3/4" Dia. 12 Studs H1048 148 19 7/8" Dia. 9 Studs 12 3/4" Dia. 16 Studs 2227 2236 8 5/8" Dia. 6 Studs 8 5/8" Dia. 9 Studs 2939 2533 10 3/4" Dia. 6 Studs OBSOLETE 10 3/4" Dia.Menu Condensers Condensers Front Endplate ID 2155 14" Dia. 6 Studs 2263 10 3/4" Dia. 6 Studs 2245 8 5/8" Dia. 6 Studs 2920 2524 12 3/4" Dia. 12 Studs 2894 2489 8 5/8" Dia. 9 Studs 12 3/4" Dia. 12 Studs 2461 8 5/8" Dia. 6 Studs 2876 2470 3868 2678 8 5/8" Dia. 12 Studs 2452 6 5/8" Dia. 12 Studs 8 5/8" Dia. 6 Studs 8 5/8" Dia. 6 Studs 12 3/4" Dia. 12 Studs 35 . 6 Studs 2911 2506 10 3/4" Dia. 6 Studs 12 3/4" Dia. 6 Studs 8 5/8" Dia. 9 Studs 3334 2542 8 5/8" Dia. 9" Studs 4261 10 3/4" Dia. 9 Studs 3918 8 5/8" Dia. 6 Studs 5464 4247 10 3/4" Dia. 12 Studs 4292 4328 8 5/8" Dia. 9 Studs 5819 6 3/4" Dia.Menu Condensers Front Endplate ID Condensers 3901 8 5/8" Dia. 6 Studs 6" Dia. 6 Studs 10 3/4" Dia. 9 Studs 4092 8 5/8" Dia. 6" Studs 4278 3956 12 3/4" Dia. 6 Studs 6 5/8" Dia. 6 Studs 10 3/4" Dia. 6 Studs 5576 8 5/8" Dia. 9 Studs . 4 Studs 6 5/8" Dia. 9 Studs 8 5/8" Dia. 6 Studs 5552 8 5/8" Dia. 6 Studs 5495 4254 36 5707 5040 4230 8 5/8" Dia. 6 Studs 5907 10 3/4" Dia. 9 Studs 6" Dia. 6 Studs 5583 10 3/4" Dia. 4 Studs 5727 8 5/8" Dia. 9 Studs 6 3/4" Dia. 6 Studs 6 5/8" Dia. 6 Studs 10 3/4" Dia. 4 Studs 37 . 9 Studs 6481 6229 10 3/4" Dia. 6 Studs 6605 6281 8 5/8" Dia. 4 Studs 8 5/8" Dia. 6 Studs 6487 6205 8 5/8" Dia.Menu Condensers Condensers Front Endplate ID 6436 5938 6" Dia. 6 Studs 6717 6389 6" Dia. 4 Studs 6 5/8" Dia. 6 Studs 6412 5 1/4" Dia. AlfaNova (EVP-AN) 38 . All heat exchangers have capacity limits and careless sizing of chiller barrels leads to needless performance problems. For example. Note: Do not exceed maximum stated flow rate. listed. Nominal Tonnage Rating Basis Nominal ratings are based on ARI standard 480. low-temperature and process cooling applications.000 Btu/hr 100° F. such as brine. outlet water 35°F R22 Saturated Suction 0. 4. ERS/ERD ERS/ERD Models are rated at 300 psi tube side and 200 psi shell side (non-code). which can be obtained at www.L. should be maintained in the evaporator to prevent freezing. poor performance. However. please consult factory. Undersizing can lead to insufficient cooling and inefficient compressor operation.com or from customer service. You are invited to contact your nearest sales representative or our office headquarters for prompt assistance. Minimum approach 5° (for approaches 6° or less.0001 ft2 hr°F/Btu fouling factor Sizing by Nominal Tons Copper-Brazed (EVP-CB) Sizing by nominal tons is done according to ARI standards. liquid entering TXV 54° F. low temperature and special design applications. Each model is tested before shipment and ratings are developed through extensive laboratory testing and computer modeling. For cooling water applications a minimum evaporating temperature of 32°F. stanref. utilize StanrefPro selection software or evaporator performance tables. a TXC50–2 is a nominal 50 ton dual–circuit barrel. oil logging. Maximum water entering temperature of 70°F. Div. and refrigerant slugging. This method is reasonably accurate for sizing air–conditioning systems. When your application varies from nominal airconditioning conditions. or when the fluids used are other than water and R–22. Models with 6 5/8" and larger shell are constructed to ASME Boiler and Pressure Vessel Code Section VIII. as shown in the catalog.Menu Evaporators Design Features and Ratings Conformance TX/TXC Standard chiller barrels 6" and smaller OD shell are U. 3. system should be designed to insure proper oil return). or reflected in the model name. Minimum outgoing water temperature of 36°F. Limitations AlfaChill (EVP-AC) 1. Chillers can be selected on a nominal system tons basis. Oversizing can lead to control valve hunting. 1. 2. inlet water 7° superheat 44° F. specific conditions being: TXG 1 ton = 12. Note: For brine. Technical Assistance and Custom Designs Standard offers custom design services and computer performance projections on all heat exchange products to help you match product and application accurately. it is not recommended for evaporating temperature below 34° F. You are invited to contact your nearest sales representative or our office headquarters for prompt assistance. Chiller barrels may be sized by other methods as well. Any Chiller Barrel product in our catalog must be customized to conform to ASME construction. Standard offers custom design services and computer performance projections on all heat exchange products to help you match product and application accurately. Range x gpm x 500 = Btu/hr Another sizing method is by compressor capacity. can be selected on a nominal system tons basis using the capacity charts in this catalog.com. determine the Btu/hr capacity needed by multiplying the temperature range by gpm flow and convert to pounds of water per hour using the multiplier 500. however.Menu Evaporator Sizing Selecting the proper chiller barrel for your application depends on four basic sizing considerations: Range The desired temperature drop of the fluid measured as the difference between incoming and outgoing fluid temperatures. is recommended only for high temperature (air conditioning) systems. Also. Special top. Please contact customer service for quotation. Note on Refrigerant R410a Applications Due to the high working pressures of Refrigerant R410a. Fluid Nozzle Location (Shell and Tube only) The standard fluid nozzle location is on the right as you are facing the refrigerant connections.stanref. Pressure Drop Technical Assistance and Custom Designs Acceptable level of fluid pressure drop through the chiller barrel at computed gallons per minute (gpm) flow rate. Manufacturer curves showing compressor Btu/hr values serve as a simple guideline for selecting chiller barrels for a given system. Capacity Necessary heat removal (tonnage) at maximum operating load Determine the range and approach then obtain the StanrefPro selection and rating software at our website www. This method. Approach The desired temperature difference between outgoing fluid and the refrigerant evaporating temperature. Where the desired temperature range is known (difference between incoming and outgoing fluid). Standard chiller barrels are rated to ARI standards and 39 . TX2 through TX20 have top side nozzle location as standard. and left side connections can be ordered. 45°) x 479 gpm x 500 = 2. The third and recommended method is sizing by range. 40 . The second method is to use compressor capacity. However. The Btu's can then be divided by 12. poor performance. using water as the fluid. or high back pressure systems. you can determine the maximum capacity chiller barrel you will need.. flow and approach. Undersizing can lead to insufficient cooling and inefficient compressor operation.5 tons In cases where the fluid being cooled is other than water. All heat exchangers have capacity limits. a TXC50-2 is a nominal 50 ton dual-circuit chiller barrel.000 to yield the tons of load. For example. but chiller selection should be made by your factory representative since the fluid is not water. as shown in the catalog model specifications.. and a 479 gpm water flow. With an incoming water temperature of 55° F. and convert to pounds of water per hour by multiplying by 500. or it can be reflected in the model name.0001 additive fouling factor 100 degrees F liquid refrigerant entering the flow control This method is reasonably accurate for sizing air conditioning systems. which are: 54 degrees F water in You may also size by compressor capacity. it is not recommended for evaporating temperatures below 34 degrees F. Chiller barrels can be selected on a nominal system ton basis.395. Careless sizing of chiller barrels leads to needless performance problems. outgoing water temperature of 45° F. a suction temperature 35° F. Sizing by Range and Flow The most precise way to size a chiller barrel when water is used is by the range and flow rate as seen in the formula: Btu/hr capacity = Range x gpm x 500 Btu/hr capacity = 44 degrees F water out 35 degrees F refrigerant evaporating temperature 7 degrees superheat 0. just multiply the Range or Temperature Drop by gpm flow. Sizing by nominal tons is done according to ARI standards. capacity can be determined by adding the specific heat and specific gravity into the equation: Btu/hr = Range x gpm x 500 x Sp Heat x Sp Gravity This equation will give you the capacity required. Compressor manufacturer performance data of Btu per hour can be used to select chiller barrels for a given system. ARI standard · 54°F water inlet · 44°F water outlet · 35°F water inlet · 7°F superheat · 0. or when the fluids used are other than water and R-22.000 Btu/hr 2. All of the Standard rating data is based on ARI standards.0001 additive fouling · 100°F liquid refrigerant Sizing by Compressor Capacity Range x gpm x 500 To obtain the Btu per hour capacity. Btu capacity can be calculated like this: (55° .395. Nominal ton ratings are based on the conditions of ARI Standard 480 utilizing R-22. and refrigerant slugging. Contact an Alfa Laval representative for special fluid conditions. oil logging. The first and easiest is to size by nominal system tons. By reading the performance curves of the compressor at the conditions that you require. Oversizing can lead to control valve hunting.Menu Selecting the Right Evaporator Sizing the Right Evaporator (Chiller Barrel) Sizing by Nominal Tons There are three basic selection methods you can use to size a chiller barrel.000 Btu/hr (divided by) 12.000 Btu/ton = 199. 2 5⁄8 7⁄8 1FPT 3⁄8 0.2 16.0 174.8 40.0 1 1⁄8 2 5⁄8 4" FLANGE 3⁄4 19.4 72 6 145 225 225 TX20-4 4 26.9 84 12 3⁄4 1080 150 225 TXC150-2 2 173.5 84 8 5⁄8 587 150 300 TXC100-2 2 124.0 1 1⁄8 2 5⁄8 3 MPT 3⁄4 9.9 36 6 136 225 225 TX25 -1 1 26.4 36 4 66 225 225 TX10 -1 1 11.0 319.8 40.7 110.7 7.5 36 4 64 225 225 TX7 1/2 -1 1 9.3 1 3⁄8 2 5⁄8 6" FLANGE 3⁄4 34.4 24 2 3⁄4 50 225 225 TX5 -1 1 6. Fluid Conn.0 273.1 5⁄8 1 1⁄8 2 1⁄2 FPT 1⁄2 8.7 2 1⁄8 3 5⁄8 8" FLANGE 3⁄4 73.0 84 16 2200 150 225 TXC275-2 2 309.5 7⁄8 1 5⁄8 2 1⁄2 FPT 1⁄2 3.5 72 8 5⁄8 556 150 300 TXC50-2 2 53.2 36 6 128 225 225 TX20-2 2 23.0 212.3 1 1⁄8 2 5⁄8 3FPT 1⁄2 2.1 72 8 5⁄8 594 150 300 TXC60 -1 1 64.8 2.8 13.7 50.5 72 8 5⁄8 563 150 300 TXC50 -1 1 53.8 120.3 72 6 5⁄8 404 150 300 TXC40-2 2 42.4 36 6 120 225 225 TX15-1 1 20.2 36 4 70 225 225 TX12 -1 1 15.7 110.0 1 3⁄8 2 5⁄8 3 MPT 3⁄4 17.8 120.0 2 1⁄8 3 5⁄8 6"FLANGE 3⁄4 26.0 7⁄8 1 5⁄8 3 MPT 3⁄4 9.8 5⁄8 1 1⁄8 1 1⁄4FPT 1⁄2 1.0 1 3⁄8 3 1⁄8 4"FLANGE 3⁄4 17.1 18.0 5⁄8 1 1⁄8 2 FPT 1⁄2 1.9 36 6 136 225 225 TX25-2 2 26.0 1 1⁄8 2 1⁄8 3 MPT 3⁄4 17.0 1 3⁄8 3 1⁄8 6" FLANGE 3⁄4 26. Design Features and Ratings Models Circuits Nominal Tons** Connections Clean Fouled Ref.0 1 3⁄8 3 1⁄8 5" FLANGE 3⁄4 28.1 5⁄8 1 1⁄8 1 1⁄2FPT 1⁄2 1.0 84 14 1600 150 225 TXC175-2 2 198.5 2 1⁄8 4 1⁄8 8" FLANGE 3⁄4 54.6 36 4 62 225 225 TX6 -1 1 8.7 1 1⁄8 2 1⁄8 3FPT 1⁄2 2.0 84 14 1700 150 225 TXC200-2 2 242.5 84 8 5⁄8 587 150 300 TXC100-1 1 124.0 4.8 13.2 36 6 128 225 225 TX20-1 1 23.0 1 5⁄8 3 1⁄8 4"FLANGE 3⁄4 19.9 84 12 3⁄4 1080 150 225 TX10-2 2 11.1 30.4 84 10 3⁄4 1070 150 225 TXC120-1 1 136. Out (ids) W.4 84 10 3⁄4 1070 150 225 TXC120-2 2 136.2 36 4 70 225 225 TX12-2 2 15.9 1 3⁄8 3 1⁄8 8" FLANGE 3⁄4 42.0 2 1⁄8 3 5⁄8 5"FLANGE 3⁄4 28.9 11.0 84 24 3600 150 225 2-Circuit Multi-Circuit TX15-3 3 22.1 1 3⁄8 3 1⁄8 8" FLANGE 3⁄4 39.0 7⁄8 1 5⁄8 2FPT 1⁄2 1.9 22.8 2.1 72 8 5⁄8 581 150 300 TXC60-2 2 64.7 50.9 19.1 72 6 155 225 225 **Clean ratings: As tested per ARI standard 480-01 Fouled ratings: Include a additive fouling coefficient of 0.7 24.8 84 8 5⁄8 642 150 300 TXC75 -1 1 80.7 75.7 75.0 1 1⁄8 2 1⁄8 4" FLANGE 3⁄4 17. In (ids) Ref.3 72 6 5⁄8 414 300 150 TXC40 -1 1 42.0 5⁄8 1 1⁄8 2 FPT 1⁄2 3.0 84 18 2600 150 225 TXC300-2 2 361.5 2 1⁄8 4 1⁄8 10" FLANGE 3⁄4 101.0 7⁄8 1 5⁄8 2FPT 1⁄2 3.3 60.5 1 1⁄8 2 1⁄8 2 1⁄2FPT 1⁄2 3.9 22.Menu TX/TXC .0 2 1⁄8 3 1⁄8 5"FLANGE 3⁄4 19.3 60.5 1 3⁄8 2 5⁄8 6" FLANGE 3⁄4 31.0 251.8 7⁄8 1 5⁄8 1 1⁄2FPT 1⁄2 1.6 36 6 142 225 225 TXC30-2 2 32.1 30.9 19.9 5⁄8 7⁄8 1FPT 3⁄8 0.8 84 8 5⁄8 634 150 300 TXC75-2 2 80.4 24 2 3⁄4 46 225 225 TX3 -1 1 3.0 84 16 2100 150 225 TXC250-2 2 284.0 505.2 16.0 152. Fluid Volume T (fpt) (gal) Specifications Working Pressure (psig) Tube Length (inches) Shell Diameter (inches) Shipping Weight (lbs) Shell Side Tube Side 1-Circuit TX2 -1 1 2.0 1 3⁄8 2 5⁄8 5" FLANGE 3⁄4 19.0 84 20 2800 150 225 TXC500-2 2 573.Shell-and-Tube Super Compact Serviceable Evaporators Compact Servicable Chiller Barrels.6 5⁄8 1 1⁄8 3 FPT 1⁄2 8.9 11.0001 ft2 hr°F/Btu over clean rating per ARI standard 480-01 41 .7 7⁄8 1 5⁄8 3 FPT 1⁄2 2.6 36 6 142 225 150 TXC30 -1 1 32.4 36 6 120 225 225 TX15-2 2 20.5 7.3 7⁄8 1 5⁄8 3 FPT 1⁄2 2. 1-Circuit TX2-1 4 6 1⁄16 28 1⁄4 2 1⁄8 21 7⁄8 3 1⁄2 23 5⁄8 3⁄8 2 1⁄2 2 1⁄2 3 7⁄8 3⁄4 11⁄16 – – A TX3-1 4 6 1⁄16 28 1⁄4 2 1⁄8 21 7⁄8 3 1⁄2 23 5⁄8 3⁄8 2 1⁄2 2 1⁄2 3 7⁄8 3⁄4 11⁄16 – – A TX5-1 5 1⁄2 8 40 1⁄4 2 5⁄16 33 11⁄16 3 1⁄2 35 5⁄8 3⁄8 3 3 1⁄2 5 15⁄16 3⁄4 – – A TX6-1 5 1⁄2 8 40 1⁄4 2 7⁄16 33 9⁄16 3 1⁄2 35 5⁄8 3⁄8 3 3 1⁄2 5 15⁄16 3⁄4 – – A TX7 1/2-1 5 1⁄2 8 40 1⁄4 2 7⁄16 33 9⁄16 3 1⁄2 35 5⁄8 3⁄8 3 3 1⁄2 5 1 1⁄16 15⁄16 – – A TX10-1 5 1⁄2 8 40 1⁄4 2 13⁄16 33 3⁄16 3 1⁄2 35 5⁄8 3⁄8 3 3 1⁄2 5 1 1⁄16 15⁄16 – – A TX12-1 7 3⁄4 10 41 1⁄4 2 15⁄16 33 1⁄16 4 1⁄2 35 1⁄2 1⁄2 3 5 3⁄4 6 1 3⁄16 15⁄16 – – A TX15-1 7 3⁄4 11 41 1⁄4 3 3⁄16 32 13⁄16 4 1⁄2 35 1⁄2 1⁄2 3 5 3⁄4 6 1 1⁄2 1 – – A TX20-1 7 3⁄4 11 41 1⁄4 3 1⁄2 32 1⁄2 4 1⁄2 35 1⁄2 1⁄2 3 5 3⁄4 6 1 1⁄2 1 – – A TX25-1 7 3⁄4 11 41 1⁄4 3 1⁄2 32 1⁄2 4 1⁄2 35 1⁄2 1⁄2 3 5 3⁄4 6 1 1⁄2 1 1⁄4 – – A TXC30-1 10 3⁄8 13 1⁄2 81 3⁄4 4 1⁄4 67 3⁄4 8 54 18 3 5 1⁄4 – 1 3⁄4 1 3⁄4 – – B TXC40-1 11 5⁄8 15 1⁄2 81 3⁄4 4 1⁄2 67 1⁄2 8 54 18 3 7 1⁄8 – 2 1⁄8 1 2⁄3 – – B TXC50-1 11 5⁄8 15 1⁄2 81 3⁄4 4 3⁄4 67 1⁄4 8 54 18 3 7 1⁄8 – 2 1⁄4 2 3⁄8 – – B TXC60-1 11 5⁄8 15 1⁄2 93 3⁄4 4 3⁄4 79 1⁄4 8 63 21 3 7 1⁄8 – 2 1⁄4 2 3⁄8 – – B TXC75-1 11 5⁄8 15 1⁄2 93 3⁄4 5 1⁄2 78 1⁄2 8 63 21 3 7 1⁄8 – 2 1⁄4 2 3⁄8 – – B TXC100-1 16 5⁄8 19 5⁄8 94 7⁄8 5 3⁄4 78 1⁄4 8 3⁄8 63 21 5 11 1⁄4 – 2 4⁄9 2 3⁄4 – – B TXC120-1 16 5⁄8 19 5⁄8 94 7⁄8 6 3⁄8 77 5⁄8 8 3⁄8 63 21 5 11 1⁄4 – 2 4⁄9 2 3⁄4 – – B TX10-2 5 1/2 8 40 1/2 2 13/16 33 3/16 3 1/2 35 5/8 3/8 3 3 1/2 5 11/16 15/16 3/4 1 C TX12-2 7 3/4 10 41 1/4 2 15/16 33 1/16 4 1/2 35 1/2 1/2 3 5 3/4 6 1 3/4 1 1/8 1 1/8 C TX15-2 7 3/4 11 41 1/4 3 3/16 32 13/16 4 1/2 35 1/2 1/2 3 5 3/4 6 1 3/16 7/8 1 1/4 1 1/4 C TX20-2 7 3/4 11 41 1/4 3 1/2 32 1/2 4 1/2 35 1/2 1/2 3 5 3/4 6 1 3/16 7/8 1 1/4 1 1/4 C TX25-2 7 3/4 11 41 1/4 3 1/2 32 1/2 4 1/2 35 1/2 1/2 3 5 3/4 6 1 3/16 7/8 1 1/4 1 1/4 C TXC30-2 10 3⁄8 13 1⁄2 81 3⁄4 4 1⁄4 67 3⁄4 8 54 18 3 5 1⁄4 – 1 1⁄2 1 1⁄2 1 3⁄4 1 3⁄4 D TXC40-2 11 5⁄8 15 1⁄2 81 3⁄4 4 1⁄2 67 1⁄2 8 54 18 3 7 1⁄8 – 1 3⁄4 1 5⁄8 2 2 D TXC50-2 11 5⁄8 15 1⁄2 81 3⁄4 4 3⁄4 67 1⁄4 8 54 18 3 7 1⁄8 – 1 3⁄4 1 5⁄8 2 2 D TXC60-2 11 5⁄8 15 1⁄2 93 3⁄4 4 3⁄4 79 1⁄4 8 63 21 3 7 1⁄8 – 1 3⁄4 1 5⁄8 2 2 D TXC75-2 11 5⁄8 15 1⁄2 93 3⁄4 5 1⁄2 78 1⁄2 8 63 21 3 7 1⁄8 – 1 3⁄4 1 5/8 2 2 D TXC100-2 16 5⁄8 19 5⁄8 94 7⁄8 5 3⁄4 78 1⁄4 8 3/8 63 21 3 11 1/4 – 2 3/8 2 2/3 2 1⁄4 3 1⁄8 D TXC120-2 16 5⁄8 19 5⁄8 94 7⁄8 6 3⁄8 77 5⁄8 8 3⁄8 63 21 3 11 1⁄4 – 2 3⁄8 2 2⁄3 2 1⁄4 3 1⁄2 D TXC150-2 18 5⁄8 20 7⁄8 96 5⁄8 6 3⁄8 77 5⁄8 9 3⁄8 63 21 5 1⁄2 12 – 2 5⁄8 2 5⁄8 3 3 D TXC175-2 18 5⁄8 20 7⁄8 96 5⁄8 6 3⁄8 77 5⁄8 9 3⁄8 63 21 5 1⁄2 12 – 2 5⁄8 2 5⁄8 3 3 D TXC200-2 21 24 1⁄8 96 5⁄8 7 1⁄2 76 1⁄2 9 3⁄8 63 21 5 1⁄2 12 – 2 5⁄8 2 5⁄8 3 1⁄3 3 1⁄3 D TXC250-2 21 24 1⁄8 96 5⁄8 7 1⁄2 76 1⁄2 9 3⁄8 63 21 5 1⁄2 12 – 2 5⁄8 2 5⁄8 3 1⁄3 3 1⁄3 D TXC275-2 23 24 7⁄8 96 7⁄8 7 1⁄2 76 1⁄2 9 3⁄8 63 21 5 1⁄2 12 – 3 3 4 4 D TXC300-2 25 26 7⁄8 96 7⁄8 7 1⁄2 76 1⁄2 9 3⁄8 63 21 5 1⁄2 12 – 3 3⁄4 3 3⁄4 4 1⁄4 4 1⁄4 D TXC400-2 25 26 7⁄8 96 7⁄8 8 5⁄8 75 3/8 9 3⁄8 63 21 5 1⁄2 12 – 3 3⁄4 3 3⁄4 4 1⁄4 4 1⁄4 D TXC500-2 29 31 1⁄8 97 1⁄8 8 5⁄8 75 3/8 9 3⁄8 63 21 5 1⁄2 12 – 3 1⁄2 3 1⁄2 4 5⁄8 4 5⁄8 D 2-Circuit Multi-Circuit TX15-3 7 3⁄4 9 7⁄8 81 3 13⁄16 68 13⁄16 4 1⁄2 72 1⁄2 3 5 3⁄4 6 2 1⁄8 1 5⁄8 na na E TX20-4 7 3⁄4 9 7⁄8 81 3 3⁄8 68 5⁄8 4 1⁄2 72 1⁄2 3 5 3⁄4 6 1 5⁄8 1 13⁄16 7⁄8 F 42 .Shell-and-Tube Super Compact Serviceable • • • • • Serviceable 30% .Menu TX/TXC .50% smaller than comparable models Easier to handle and position New advanced design UL listed or ASME Models • • • • • Evaporators 3⁄4” insulation Single and dual-circuit designs 3 and 4 circuit designs available 21 TX/TXC models from 2 thru 500 tons Ideal for OEM replacements Dimensions (inches) D H L A B C E F G I J K M N O Fig. consult with factory.Menu Evaporators TX/TXC . Dimensions do not include the 3/4" factory insulation.Shell-and-Tube Super Compact Serviceable TX2-1 TX2thru thru TX25-1 TX25-1 Figure A 1-Circuit Q refrigerant outlet with 1/4" fpt equalizer D K M C A L B fluid outlet W TX2-1 TX2thru thruTX25-1 TX25-1 H J G P refrigerant inlet I W fluid inlet 3/4" insulation 3/4" T drain E F TXC30-1 thru TXC120-1 Figure B 1-Circuit G D Q refrigerant outlet with 1/4" fpt equalizer C W fluid inlet A L fluid outlet W TXC30-1 thru TXC120-1 K M H B I I P refrigerant inlet T drain F E TX10-2 thru TX25-2 TX10-2 thru TXC25-2 Figure C 2-Circuit D OO NN Q refrigerant outlet with 1/4" fpt equalizer K M J II C L W fluid inletB A fluid outlet W H P refrigerant inlet 3/4" G 3/4" insulation E T drain F Other multi-circuit models available. 43 . Shell-and-Tube Super Compact Serviceable TXC30-2 TXC500-2 TXC30-2 thru TXC500-2 Figure D 2-Circuit G D OO H K M NN II Q refrigerant outlet with 1/4" fpt equalizer C B A L W fluid inlet fluid outlet W TXC30-2 thru thru TXC500-2 TXC500-2 TXC30-2 P refrigerant inlet F T drain E TX15-3 TX15-3 Figure E 3-Circuit T drain L C D H K J I I A 1/4 FPT rotated 45° B W fluid inlet fluid outlet W C TX15-3 1-3/4 TX15-3 M G 3/4" T drain E 2 F Q refrigerant outlet with 1/4" fpt equalizer P refrigerant inlet TX20-4 TX20-4 Figure F 4-Circuit T drain D N N H K L C A fluid outlet W 7/8 7/8 C 7/8 TX20-4 TX20-4 M J G I E P refrigerant inlet Dimensions do not include the 3/4" factory insulation. 44 B W fluid inlet 1 3/4 T drain Q refrigerant outlet with 1/4" fpt equalizer F .Menu Evaporators TX/TXC . 4 18 50.00 1.44 16.25 8 1.625 460 150 225 TXG60-1 60 5.94 30.88 8.88 5 1.4 18 43.12 5 2.25 4 1.50 10.88 5 1.19 26. Design Features and Ratings Models Nom'l Cap.00 11.5 16 43.50 7.50 11.13 14.625 1201 150 225 TXG115-2 115 5.9 10.88 8.4 18 50.8 10.00 11.625 3.50 8.9 10.94 17.875 1.50 12.88 5 1.06 20.69 27.38 13.8 10. Tons Press.13 24.25 26.125 610 150 225 TXG70-1 70 6.125 2.375 2.125 2.25 4 1.875 1.06 20.38 12. Outlet (ids) Shipping Weight (lbs) Working Pressure (psi) Shell Side Tube Side 1-Circuit TXG30-1 30 6.125 2.50 8.75 43.88 8.88 8.88 7.625 3.69 35.375 2.50 14.06 20.625 42.625 626 150 225 TXG85-2 85 4.50 9.94 27.75 42.8 12.50 26.50 8.625 3.25 6 1.13 22. Inlet (ids) Refrig.94 25.50 8.50 12.12 6 2.75 42.88 4 1.625 1190 150 225 TXG115-1 115 5.50 12.Shell-and-Tube Ultra Compact Serviceable Evaporators The TXG is the industry's most compact shell-and-tube evaporator.25 26.125 2. (in) Dimensions (inches) A B C D E F Water In & Out (grooved) Refrig.50 13.50 12.125 1555 150 225 TXG150-2 150 6.50 11.50 11.25 6 1.50 12.50 26.88 8.625 1610 150 225 TXG190-1 190 4.12 22.50 10.0 20 51.88 5 1. Out (Suction) D 0.87 24.625 848 150 225 TXG100-2 100 5.00 9.125 1221 150 225 TXG130-2 130 6.94 17.13 24.94 11.31 24.12 6 1.625 323 150 225 TXG40-2 40 5.50 9.625 444 150 225 TXG50-2 50 6.88 9.88 8.50 12.25 6 1.75 43.94 27.81 7.75 42.625 3.625 3.50 11.125 620 150 225 TXG85-1 85 4.125 1625 150 225 TXG190-2 190 4.50 14.88 8.38 13.88 7.38 13.375 3.9 14 43.88 9.75 43.125 464 150 225 225 TXG60-2 60 5.50 13.50 8.8 12.50 7.50 13.50 8.94 11.56 (4) Holes Each Tube Sheet F E 1.375 2.19 14.88 7.3 12.88 3(fpt) 1.5 16 43.25 6 1.25 3 (fpt) 0.375 2.625 4.125 320 150 225 TXG40-1 40 5.94 30.0 8.625 1210 150 225 TXG130-1 130 6.50 11.9 16 43.88 7.625 3. Drop (psi) Shell Dia.625 440 150 225 TXG50-1 50 6.69 27.44 16.125 1920 150 225 2-Circuit TXG30-2 30 6.Menu TXG .81 7.9 14 43.81 5. In (Liquid) 45 .00 9.75 43.50 11.50 10.81 5.625 1938 150 225 *Flanged Connections Available Upon Request Insulation Available Upon Request Ratings in accordance with ARI standard 480-95 1-Circuit • • • • • • • • Rivals Brazed Plates for compactness Single and dual-circuit designs Accurate ratings to ARI 480-95 22 TXG models from 30 to 190 tons More resistant to localized freeze-ups Ideal for OEM replacements Design resists clogging and premature failure Serviceable Refrig.50 12.25 8 1.88 8.25 3(fpt) 1.125 840 150 225 TXG100-1 100 5.625 42.88 9.94 25.88 3 (fpt) 0.88 4 1.3 12.13 14.625 3.00 F Refrig.31 24.4 18 43.75 42.19 26.56 26.125 3.38 12.12 22.9 16 43.13 22.44 16.69 35.87 24.38 13.44 16.56 26.13 14.50 10.50 13.625 3.0 20 51.88 9.13 14.12 5 1.50 12.0 8.125 616 150 TXG70-2 70 6.625 1540 150 225 TXG150-1 150 6.125 3.06 20.19 14. 00 F Water In Water Out 46 Drain . In (Liquid) (2) Req'd 1.56 (4) Holes Each Tube Sheet F A C E B 1. Out (Suction) D (2) Req'd 0. TXG 150-1 & TXG190-1 Only F E 1.00 Refrig.Shell-and-Tube Ultra Compact Serviceable Evaporators A C 1-Circuit Models B Water Out Water In Refrig. Out (Suction) Drain D 0.56 (4) Holes Each Tube Sheet TXG 130-1.00 Refrig.Menu TXG . In (Liquid) (2) Req'd 1.00 F 2-Circuit Refrig. 95 1.2 1.95 1.1.54 10.3 7 0.95 1.2 2.5 5. 1-/8" 1-1/8" 14.2.62 20. 3-1/8" 3" Victaulic 233.05.7 0.AlfaChill Copper-Brazed Heat Exchangers .1.58 3.3 5.9 0. 1-/8" 1-1/8" 22.58 3.56 EVP-5M-AC 4.05.3 0.95 1.18.1.2.62 20.97 18.58.58.58 Frame Size 33. 2-1/8" 2-1/8" 162.4 0.9 0.1.1.18.35 EVP-15L-AC 15 674-03 AC-70-62MY-S25 32870 6721 3 5/8". 7/8" 7/8" 6.8 672-02 AC-30-40EQ S09 32870 6134 9 1/2".95 1.58.35 EVP-12L-AC 12 674-03 AC-70-50MY-S24 32870 6721 1 5/8".1.56 EVP-2M-AC 2.1.3 0.3" H x 7.58 **Nominal Tons . 1-/8" 1-1/8" 16.95 EVP-4L-AC 4 674-01 AC-70-18MY-S21 32870 6720 6 5/8".6" W EVP-10XL-AC 11 675-01 AC-120-30EQ S46 Working Pressure 450 PSIG 32870 6145 1 7/8". 1-3/8" 1-1/8" 22.3 4.7 0. 1-1/8" 1-1/8" 11.35 EVP-5L-AC 5 674-01 AC-70-22MY-S21 32870 6720 7 5/8". 7/8" 7/8" 10.05.6 0.13 23. 2-1/8" 2-1/8" 75 6.1 0.62 20. 2-5/8" 3" Victaulic 198.2.4" W Working Pressure 450 PSIG 32870 6720 4 8.54 10.56 EVP-7M-AC 7 672-02 AC-30-60EQ S21 32870 6135 1 5/8".58 3. 44°F LWT.1 0.7 3 0.95.58 EVP-15XL-AC 15 675-01 AC-120-40EQ S46 32881 0214 0 7/8". 1-3/8" 1-3/8" 49.1 672-01 AC-30-10EQ R52 32870 6134 6 3/8".35 Frame Size 20.1 12.62 20.05 4.2.1 9.2 1.43 EVP-30XL-AC 33 675-02 AC-120-90EQ S62 32870 6145 5 1-1/8".56 EVP-8M-AC 8 672-03 AC-30-70EQ S21 32870 6135 2 5/8".95 1.97 18.58 EVP-60XXL-AC 58 676-02 AC-250-80EQ Y55 32870 6199 1 1-3/8".56 EVP-10M-AC 10 672-03 AC-30-100EQ S21 32870 6135 4 5/8".1.58.5 13.4 17.97 18.62 20.05 4.58 3.56 EVP-3. Liq/ Suction in/out Frame Size 12.35 EVP-10L-AC 10 674-02 AC-70-42MY-S24 32870 6721 0 5/8".3 3.2 3.95 1.54 10.62 20.43 Frame Size 24.0001 Ft2/hr.35 EVP-6L-AC 6 674-01 AC-70-26MY-S21 32870 6720 8 5/8".9 3.97 18.6 10.54°F EWT.95 1.62 20.2.58. 2-5/8" 3" Victaulic 127.43 EVP-45XL-AC 48 675-03 AC-120-150EQ S76 32870 6145 8 1-3/8".13 23.95 1.13 23.35 EVP-20L-AC 21 674-03 AC-70-100MY-S49 32870 6721 7 7/8".43 EVP-35XL-AC 38 675-02 AC-120-106EQ S62 32870 6145 6 1-1/8".1.2. 1-1/8" 1-1/8" 9.97 18.1.) "A" liq.58 3.1 8.95.58 3.1.54 10.58.Menu Evaporators EVP-AC .95 1.95 1. 2-1/8" 2-1/8" 191.95.2.1 0. 1-1/8" 1-1/8" 1.97 18. 1-1/8" 1-1/8" 12. (lbs.2 0.9 0.05 4.4 0.95.95 1.4 0.6 0.95.35 3.95.62 20.13 23.3 0. Suction W (Ref gas (Water in) out) Liquid (Ref in) W (Water out) 47 .5 672-01 AC-30-30EQ S09 32870 6134 8 1/2". 0.97 18.18.5" H x 12.2 0.95.6 0.6 12 0. 2-1/8" 2-1/8" 45.43 EVP-45XXL-AC 44 676-01 AC-250-60EQ Y51 32870 6199 0 1-1/8". Model Nominal HP* ¾" Insulation Kit Description Part Number Four Frame Sizes Connections (ids) Ref.3 14. 2-5/8" 3" Victaulic 163. 6°F SH.5 0.6 1.56 EVP-3L-AC 3 674-01 AC-70-14MY-S21 5/8".18.58. Water "D" "B" "C" Working Pressure 450 PSIG EVP-1M-AC 1.95.43 EVP-20XL-AC 23 675-01 AC-120-60EQ S62 32870 6145 3 1-1/8".1.7" W Water In/ Out Dimensions (in.1.7" H x 4. 1-1/8" 1-1/8" 15.4 1. 1-3/8" 1-1/8" 27.1.58 EVP-85XXL-AC 84 676-02 AC-250-120EQ Y57 32870 6199 3 1-3/8".43 EVP-25XL-AC 28 675-02 AC-120-76EQ S62 32870 6145 4 1-1/8".1.2 3.43 EVP-40XL-AC 42 675-03 AC-120-124EQ S62 32870 6145 7 1-1/8".54 10.2 2.2.95 1.1. 2-1/8" 2-1/8" 55.1. 1-3/8" 1-1/8" 19. 2-1/8" 2-1/8" 119.54 10.9 7.Suc. 7/8" 7/8" 4. please contact Customer Service. °F/Btu Water pressure drop less than 10 psig For performance with other refrigerants and/or fluids other than water.2 0.9 3.2 4.56 EVP-6M-AC 6 672-02 AC-30-50EQ S21 32870 6135 0 5/8".3 672-01 AC-30-20EQ R52 32870 6134 7 3/8". 35°F SST R22.62 20. 2-1/8" 2-1/8" 90.95 1.54 10.3 0. 1-/8" 1-1/8" 12.97 18.58.1.) Dry Wt.35 EVP-7L-AC 7 674-01 AC-70-32MY-S21 32870 6720 9 5/8".97 18.2 2.1 0.9 0.95 1.54 10.8" H x 3.5M-AC 3.7" W Working Pressure 435 PSIG EVP-75XXL-AC 72 676-02 AC-250-100EQ Y55 32870 6199 2 1-3/8".9 1. 2-1/8" 2-1/8" 137.High Efficiency The EVP-AC Single-Circuit Evaporators are copper-brazed and feature a built-in distributor. 7/8" 7/8" 8.43 EVP-50XL-AC 52 675-03 AC-120-180EQ S76 32870 5589 6 1-3/8".5 0.58 3.05 4.95.95 1.95 1.3 11.2 6. 1-3/8" 1-3/8" 42.05.58 3.97 18.35 EVP-23L-AC 23 674-03 AC-70-118MY-S49 32870 6721 8 7/8". 2-1/8" 2-1/8" 104.4 10.6 4.58.5 7. 89 6.18.1.5" H x 12.58 4.76 1. 15.AlfaChill Copper-Brazed Heat Exchangers High Efficiency Dual-Circuit Models Evaporators The EVP-AC2 Dual Circuit Evaporators are copper-brazed and feature a built-in distributor. 2-1/8" 2-1/2" Victaulic 150.18.1.58.1.1.16 EVP-15MW-AC2 14 677-02 AC-80-66DQ Q18 32870 6509 5 5/8".2.1. please contact Customer Service.72 EVP-90XXL-AC2 88 679-02 AC-250-122DQ Y77 32870 6199 5 1-1/8".58 4.89 6.65/12.2 16.9 0.65 EVP-50LW-AC2 52 678-03 AC-130-182DQ Y74 32870 6210 3 1-1/8".72 11.31 23.5 0. 44°F LWT. In/ Out L2.05.1. 1-3/8" 1-3/8" 64.65/12.5 0.18.L1/ S1. 2-5/8" 3" Victaulic 279 16.2 15.1.18. 2 W (Water in) S1 (Suction gas out) L2 (Liquid ref in) 48 Ref out (front plate) S2 (Suction gas out) L1 Liquid ref in) W (Water out) Ref in (front plate) .98 1.95.1.18. 2-1/8" 2-1/2" Victaulic 134.73 EVP-100XXL-AC2 98 679-02 AC-250-142DQ Y81 32870 5600 9 1-3/8".05. 2-5/8" 3" Victaulic 351.1.16 Frame Size 19.58.1.6 0.2 15.95.) "D" "A" L. 15. 15.32 1.72 11.89 6.65 EVP-40LW-AC2 42 678-02 AC-130-142DQ Y74 32870 6210 1 1-1/8".18.18. 1-1/8" 1-3/8" 25.18.18.65 EVP-60LW-AC2 57 678-03 AC-130-202DQ Y74 32870 6210 4 1-1/8".2.89 6.3 0.89 6. 1-5/8" 2-1/2" Victaulic 73.65/12.18. 15.1.1.65 EVP-75XXL-AC2 74 679-01 AC-250-102DQ Y77 32870 6199 4 1-1/8".58 4.75 EVP-125XXL-AC2 125 679-02 AC-250-182DQ Y81 32870 5601 1 1-3/8". 2-5/8" 3" Victaulic 315.05.95. 1-5/8" 2-1/2" Victaulic 100 9.1 6.4 4.4" H x 7.1.18. 2-5/8" 3" Victaulic 387. 1-3/8" 1-3/8" 54 9. 24.4 14.2.89 6.58. 15.1. 2-1/8" 2-1/2" Victaulic 167.05.W "B" front "C" front/rear Working Pressure 450 PSIG EVP-6MW-AC2 6.3 3.1.18.2 15.2" H x 9.42.95. 1-1/8" 1-3/8" 45.54 1.42.2 15.7" W Working Pressure 450 PSIG **Nominal Tons .18.) Dry Wt. 15.2.76 EVP-135XXL-AC2 135 679-03 AC-250-202DQ Y81 32870 0073 0 1-3/8".65/12.2.2 15.58 4.Menu EVP-AC2 .0001 Ft /hr.65/12.67" W Rear Plate Water In/Out** Dimensions (in. 35°F SST R22.5 0.95.74 EVP-110XXL-AC2 110 679-02 AC-250-162DQ Y81 32870 5583 3 1-3/8".2.1.18. 24.1 0. 1-1/8" 1-3/8" 37.2.76 Frame Size 33.05 6.58 4.5 0.18.95.2 0.65/12.1 0.05 6.58.95.18.1.31 23.65 EVP-45LW-AC2 47 678-02 AC-130-162DQ Y74 32870 6210 2 1-1/8".72 11.8 11.3 0.42.S.1.1.4 12.58.8 8.58 4.2. 15.65 EVP-30LW-AC2 30 678-01 AC-130-102DQ Y97 32870 6209 9 7/8". 6°F SH.05 6.1. 15.95. 2-5/8" 3" Victaulic 201.95.2 15.6 0. 2-1/8" 2-1/2" Victaulic 116.2 15. 1-1/8" 1-3/8" 19.3 7. Model Nominal HP* ¾" Insulation Kit Description Part Number Three Frame Sizes Connections (ids) Front Plate Ref. (lbs.31 23. 1-5/8" 2-1/2" Victaulic 83.8 11 0.05.7 6.31 23.05 6.95. 24.65/12. 2-1/8" 2-1/2" Victaulic 184 18.05 6.1 18.6 0.9 1. 0. 1-1/8" 1-3/8" 31.72 11.2.1.72 11.1.18.05 6.0 677-01 AC-80-30DQ Q18 32870 6758 0 5/8".1.1.2.95. 24.65 EVP-35LW-AC2 36 678-02 AC-130-122DQ Y74 32870 6210 0 1-1/8".89 6.16 EVP-17MW-AC2 17 677-02 AC-80-82DQ Q18 32870 6508 6 5/8".89 6. °F/Btu Water pressure drop less than 10 psig For performance with other refrigerants and/or fluids other than water. 24.42.3 0.2 15.S2** Frame Size 15.1.72 11.42.3 20.16 EVP-8MW-AC2 8 677-01 AC-80-42DQ Q18 32870 6508 5 5/8".58 4.95. 24.95.18.18.7" W Working Pressure 450 PSIG EVP-20LW-AC2 21 678-01 AC-130-70DQ Y97 32870 6209 7 7/8".1.16 EVP-10MW-AC2 11 677-02 AC-80-54DQ Q18 32870 6508 7 5/8".1.1.31 23.65 EVP-25LW-AC2 24 678-01 AC-130-82DQ Y97 32870 6209 8 7/8". 2-5/8" 3" Victaulic 237 14.42.2.42.1.2 11.05.72 11.18.2.5 5.95.1 1.18.95.16 EVP-22MW-AC2 22 677-03 AC-80-118DQ Q19 32870 6758 2 7/8".4 22.1.54°F EWT.31 23.58.42.16 EVP-20MW-AC2 20 677-03 AC-80-98DQ Q19 32870 6758 1 7/8". Liq/ Suction in/out Water In/ Out Frame Size 12.0.0.5M-AN 1.0.0.09 1.95 1.0. corrosion-resistant design.62 20.0.) Dry Wt.95.35 EVP-8L-AN 8 674-02 AN52-40H S52 3287000906 1-1/8" 1-1/8" 23.95 1.95 1.95.95.22 2.95.1.35 EVP-13L-AN 12.57 3.62 20.84 EVP-4M-AN 4.35 EVP-6L-AN 6 674-01 AN52-30H S52 3287000904 1-1/8" 1-1/8" 18.1.7" H x 4.0.95.95. 6°F SH. please contact Customer Service.52 7. (lbs.35 EVP-15L-AN 14.0.95.95.95.0 673-03 AN27-70H S52 3287000999 1-1/8" 1-1/8" 22.3" H x 7.95 1. 100-percent.0.0.57 3.95. 35°F SST R22.97 18.95.95 1.83 1.5 675-01 AN76-30H W16 3287055757 2" weld 2" weld 51.22 1.95.97 9.97 18.0.1.84 EVP-3M-AN 3.57.1.57 3.97 18.19 0.1.03 7.83 5.69 8.97 9.57.95 1.35 0.0.97 18.AlfaNova Fusion-bonded Plate Heat Exchangers The AlfaNova is a copper-free.62 20.35 EVP-12L-AN 11.95.4 675-01 AN76-50H W16 3287000910 2" weld 2" weld 73.74 4.97 9.95 1.0.95.95 1.95.83 7.29 0.97 9.4 674-03 AN52-60H S52 3287001003 1-1/8" 1-1/8" 33.9 674-03 AN52-70H S52 3287001004 1-1/8" 1-1/8" 38. 2 Suction (Ref gas out) W (Water in) Liquid (Ref in) W (Water out) 49 .32 0.4" W Dimensions (in.1.62 20.Menu Evaporators EVP-AN .35 EVP-10L-AN 9.22 8.2 674-03 AN52-80H S52 3287001005 1-1/8" 1-1/8" 42.2" H x 4.05 0.09 4.95.36 0. Model Nominal HP* ¾" Insulation Kit Description Part Number Three Frame Sizes Connections (ids) Ref.1.98 3.57 3.97 18.95 1.0.62 20.5 2.57.57.0.43 EVP-20XL-AN 19.3 673-02 AN27-40H S52 3287000885 1-1/8" 1-1/8" 17.7 1.7 675-01 AN76-60H W16 3287000911 2" weld 2" weld 84.51 5.0. Water "B" "C" Working Pressure 435 PSIG EVP-1.3 673-02 AN27-30H S52 3287000882 1-1/8" 1-1/8" 11.27 6. stainless steel.95.96 1.57.95.35 EVP-10XL-AN 9.1.43 EVP-25XL-AN 23 675-02 AN76-70H W16 3287000912 2" weld 2" weld 95.57.43 Frame Size 24.95 1.0. 44°F LWT.97 18.0.97 18.97 9.95. 0.43 EVP-15XL-AN 16.84 Frame Size 20.) "D" "A" liq.0.09 5.3 0.4" W Working Pressure 435 PSIG EVP-4L-AN 4 674-01 AN52-20H S52 3287000902 1-1/8" 1-1/8" 14.6" W Working Pressure 435 PSIG **Nominal Tons .95 1.2 0.54°F EWT.84 EVP-5M-AN 4.95.95 1.0.43 EVP-13XL-AN 13 675-01 AN76-40H W16 3287055026 2" weld 2" weld 63.57.0.4 673-03 AN27-80H S52 3287001000 1-1/8" 1-1/8" 22.8 674-03 AN52-52H S52 3287000907 1-1/8" 1-1/8" 28. °F/Btu Water pressure drop less than 10 psig For performance with other refrigerants and/or fluids other than water.3 0.3 0.57.57.0001 Ft /hr.95.1.84 EVP-2M-AN 2.1.0.8 3.95.Suc.57.6 673-01 AN27-20H S52 3287000880 1-1/8" 1-1/8" 8.95.79 8.1 0.57 3.95.2 0.0.0.36 3. 50 15.69 9.7 6 49.8 8 5/8 69.9 3.5 4.50 8.88 8.56 11.88 41.0 2.75 4 1 5/8 3 1/8 200 300 ERS01360 111.50 20.One-Pass or Three-Pass Replacement Evaporators Design Features and Ratings Models Nom.6 3.19 10.0 5.4 2.9 12 3/4 77.0 12 3/4 78.50 15.00 11.9 10 3/4 63.50 41.7 4.88 1 3/8* (ids) 7/8 1 3/8 225 225 ERS00536 9.38 8.62 12.50 18.0 5.9 5.0 12 3/4 73.00 11.13 3 1 1/8 2 5/8 200 300 ERS00760 40.4 2.38 8.3 6.69 12.31 4 1 5/8 3 1/8 200 300 2-Circuit Insulation available upon request.56 11.06 10.06 10.88 53.06 1 5/8* (ids) 7/8 2 1/8 225 225 ERS00560 18.06 10.00 11.06 9.06 13.13 44.13 3 1 1/8 2 5/8 200 300 ERS00748 34.69 3 1 1/8 2 5/8 200 300 ERS01048 54.50 4 1 3/8 3 1/8 200 300 ERS01060 68.13 41.00 11.1 4 49.13 33.00 11.63 53.2 10 3/4 75.7 4.63 32.8 2.63 10.38 8.50 44.2 3.50 4 1 1/8 2 1/8 200 300 ERD01060 68.3 8 5/8 47.50 4 1 3/8 3 1/8 200 300 ERS01160 84.7 8 5/8 62.94 45.56 11.4 5.50 18.63 44.25 53.3 6.50 53.06 13.13 3 7/8 1 5/8 200 300 ERD00748 34.1 6 5/8 45.94 12.13 46.2 3.13 53.13 57.13 14.88 8.06 9.50 16.13 14.88 1 3/8* (ids) 7/8 1 3/8 225 225 ERS00448 9.06 4 1 3/8 2 5/8 200 300 ERD01260 93.9 4.7 6 5/8 59.13 14.9 14 78.4 4 49.13 41.4 4.5 10 3/4 72.Menu Evaporators ERS/ERD .50 56.1 6 5/8 47.69 12.13 10.13 14.6 10 3/4 65.06 1 5/8* (ids) 7/8 2 1/8 225 225 ERS00548 14.06 10.88 1 3/8* (ids) 7/8 1 3/8 225 225 ERS00436 7.9 12 3/4 73.8 8 5/8 74.13 34.4 5.1 2.12 10.25 53.13 32.06 3 1 1/8 2 1/8 200 300 ERS00660 27.6 4.5 4 37.50 16.63 12.13 53.9 4.0 2.6 4 61.50 32.5 4.9 10 3/4 59.3 8 5/8 50.50 15.19 10.8 8 5/8 71.50 16.13 3 7/8 1 5/8 200 300 ERD00848 44.8 8 5/8 71.94 12.50 56.63 53.63 12.50 15.31 4 1 5/8 3 1/8 200 300 ERD00636 16.50 20.69 3 1 1/8 2 1/8 200 300 ERD00860 53.50 17.38 8.6 10 3/4 60.13 14. 50 .06 10.50 1 1/8* (ids) 5/8 1 1/8 225 225 ERS00424 3.7 6 5/8 57.50 32.50 16.7 8 5/8 59.06 10.13 56. Cap.38 8.50 4 1 1/8 2 1/8 200 300 ERD01160 84.5 10 3/4 77.38 8.38 1 5/8* (ids) 7/8 2 1/8 200 300 ERS00636 16.7 5 60.13 22.69 3 1 1/8 2 1/8 200 300 ERD01048 54.06 3 1 1/8 2 1/8 200 300 ERS00648 21.8 6 5/8 73.2 10 3/4 71.50 44.7 4.06 3 7/8 1 5/8 200 300 ERD00736 27.88 53.13 10.13 14. Inlet (ids) Refrig.19 10.06 3 7/8 1 5/8 200 300 ERD00648 21.6 4.00 53.06 3 1 1/8 2 1/8 200 300 ERS00736 27.63 56.06 3 7/8 1 5/8 200 300 ERD00660 27.6 3.50 17.9 3.13 3 1 1/8 2 5/8 200 300 ERS00848 44. Outlet (ids) Working Pressure (psi) Shell Side Tube Side 1-Circuit ERS00336 4.19 10.13 34.9 3.9 14 74.75 4 1 3/8 2 5/8 200 300 ERD01360 111.88 8.13 3 7/8 1 5/8 200 300 ERD00760 40.69 3 1 1/8 2 5/8 200 300 ERS00860 53. Tons Pressure Drop (psi) A B D E K Water In & Out (mpt) Refrig.2 3.56 11.06 4 1 3/8 3 1/8 200 300 ERS01260 93.9 5.00 11.4 4. Removable endplates. the water flow rate at the job site will need to be adjusted to obtain the design water flow rate.One-Pass or Three-Pass Replacement Evaporators Water Flow Rates There is one baffle configuration per ER model. . inlet . Enhanced copper tubing is mechanically expanded for ERS 1-Circuit a superior seal into machined carbon steel tubesheets. refrig. Tubing wall thickness is 0. As a result. the water flow rate should be 2. As a result.Menu Evaporators ERS/ERD . outlet 51 . water inlet water outlet B D K E A refrig.4 gpm/ton. All baffles are made from corrosion-resistant materials. At a range of 10°F. but may not be in the same locations as the other OEM Single Pass evaporators. refrigerant and water connections are constructed from carbon steel. outlet refrig. inlet ERD 2-Circuit water inlet water outlet B D K E A Insulation available upon request. Refrigerant Connections The refrigerant side configuration for the ER evaporators is 3-Pass with nozzles at opposite ends. the refrigerant nozzles are on the same ends.018". refrig. Construction Materials ER evaporator shells are constructed with ASME grade carbon steel.
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Customer Information Company _______________________________________________________________________________________________________ Contact Name _____________________________________________________________ Date ______________________________ Phone __________________________________________________ Fax ___________________________________________________ E-Mail: _________________________________________________________________________________________________________ Evaporator Type Brazed Plate Shell-and-Tube fouling factor _________(0.Menu C u s t o m D e s i g n Eva p ora t or Sp e c ific a t ion Da t a Fax: 708-345-3513 or e-mail: stanref.0001 ARI standard) refrigerant ___________________________ suction temperature ______°F of refrigerant at evaporator Evaporator Design DX serviceable. flange or flare: fluid inlet ____________________ fluid outlet ____________________ App licat ion _______________________________________________________________________________________________________________ _______________________________________________________________________________________________________________ _______________________________________________________________________________________________________________ _______________________________________________________________________________________________________________ _______________________________________________________________________________________________________________ . no. circuits ______________ Fluid Circulated Flooded serviceable water _________________________% ethylene glycol_________________% propylene glycol________________% calcium chloride (CaCl2) _________% sodium chloride (NaCl)__________% other_______ _________________% Performance inlet fluid temperature _________________°F outlet fluid temperature ________________°F net load _____________________________tons pressure drop ________________________psi specify properties at outlet temperature specific gravity ____________________ thermal conductivity ________________ viscosity (centipose) ________________ specific heat ______________________ Con s t ru c tio n size: width __________________ length_______________________ height _____________________ materials: shell __________________________ tube _______________________________________ connections: refrigerant inlet _____________________ refrigerant outlet _______________________ specify ids. fpt. B Fig. B Fig. A NA NA TX3 2865 2865 Fig. C NA TX15 2889 2889 Fig. C NA TXC120 3549 3549 NA Fig. A NA NA TX6 2872 2872 Fig. D NA TXC100 4892 4804 Fig. A NA NA TX7. A Fig.Menu Evaporators . C NA TXC150 3549 3549 NA Fig. A Fig. A NA NA TX10 2872 2872 Fig. C NA TXC500 3532 3532 NA Fig. B Fig. D NA Figure A Single Circuit Dual Pass Front Rear Figure B Single Circuit Four Pass Front Rear Figure C Dual Circuit Dual Pass Front Rear Figure D Dual Circuit Four Pass Front Rear 53 .Gasket Cross Reference Models Front (GASKE-) Rear (GASKE-) Single Circuit Dual Circuit Quad Circuit TX2 2865 2865 Fig. D NA TXC60 2227 2227 Fig. C NA TXC120 4892 4804 Fig. C NA TXC400 3637 4878 NA Fig. C NA TXC30 2218 2218 Fig. C NA TXC175 5169 5169 NA Fig.5 2872 2872 Fig. B Fig. D NA TXC50 2227 2227 Fig. A NA NA TX5 2872 2872 Fig. A Fig. A Fig. C NA TX12 2889 2889 Fig. D NA TXC75 2227 2227 Fig. A Fig.D NA TXC250 3675 3675 NA Fig. C NA TX25 2889 2889 Fig. D NA TXC200 5169 5169 NA Fig. A Fig. B Fig. D NA TXC40 2227 2227 Fig. C NA TX20 2889 2889 Fig. A Fig. C NA TXC300 3637 3637 NA Fig. 7 12 3⁄4 50 1⁄4 3 1⁄2 40 1 1⁄8 2 1⁄8 2 5⁄8 2 5⁄8 1⁄2 280 * based on R-22 liquid inlet at 100°F.Menu SCT .8 12 3⁄4 40 1⁄4 3 1⁄2 30 1 1⁄8 2 1⁄8 2 1⁄8 2 1⁄8 1⁄2 240 SCT18A 17.9 8 5⁄8 29 1⁄2 1 7⁄8 19 7⁄8 5⁄8 1 3⁄8 1 3⁄8 1 3⁄8 3⁄8 108 SCT9 8. outlet temperature with R-22 evaporating at 40°F.Shell-and-Coil Subcoolers Subcoolers Design Features and Ratings Models Nominal Tons* Dimensions D Connections† H A B P (ids) Q (ids) R (ids) S (ids) Shipping Weight (lbs) C (fpt) SCT2 2 6 5⁄8 23 7⁄8 1 3⁄4 14 3⁄8 5⁄8 1 3⁄8 7⁄8 7⁄8 3⁄8 63 SCT4 3.9 10 3⁄4 31 1⁄2 2 9/16 21 3/16 7⁄8 1 5⁄8 2 1⁄8 2 1⁄8 1⁄2 148 SCT12A 11. † Refrigerant fittings 13⁄4" length • • • • • • • • • Shell-and-coil resists thermal stress fatigue Vertical installation for smaller footprint Welded and sealed construction Conforms to ASME or UL requirements 3⁄4" insulation Rugged shell and coil design 6 SCT models from 2 thru 18 tons Increase BTU Loading Decrease Electrical Usage Working Pressures: 450 psig 120° dimensions shown do not include the 3/4" factory insulation R inlet liquid to be subcooled DX suction gas outlet Q DX suction gas outlet Q C R inlet liquid to be subcooled C SCT12A SCT18A SCT2 through SCT9 B D H H B outlet subcooled liquid S D A C C DX liquid inlet P DX liquid inlet P 54 6 outlet subcooled liquid S .9 8 5⁄8 25 2 1⁄4 15 3⁄8 5⁄8 1 3⁄8 1 1⁄8 1 1⁄8 3⁄8 73 SCT6 5. and 50°F. 5L-CB 7.3" H x 7.97 9.83 1.5 0.97 9.97 20.6" W Working Pressure 435 PSIG SBC-10XL-CB 11 675-01 CB76-20H S89 32870 0095 7 2-1/8" 2-1/8" 36.62 20.5 4.71 Frame Size 24.71 SBC-15L-CB 14 674-02 CB52-40H S52 32870 7552 2 1-1/8" 1-1/8" 20.95 1.2 6.97 9.5 0.65 6.97 9.43 SBC-10XL-CB 11 675-01 CB76-30H S89 32870 0095 8 2-1/8" 2-1/8" 45. Liq/ Suction DX1 in/ DX2 out Frame Size 8.95 1. please contact Customer Service. R-22.71 SBC-20L-CB 20 674-03 CB52-80H S52 32870 7552 5 1-1/8" 1-1/8" 43.95 1.97 9.97 9.28 0.84 SBC-6M-CB 6.97 20.84 SBC-3M-CB 3.37 2.97 20.78 SBC-05S-CB 0.84 SBC-5.2 673-01 CB27-24H S33 32870 0071 3 7/8" 7/8" 9. (lbs.5M-SB 1.43 SBC-20XL-CB 18 675-01 CB76-40H S89 32870 0095 9 2-1/8" 2-1/8" 55.95 1.94 1.5 674-01 CB52-20H S52 32870 7552 0 1-1/8" 1-1/8" 14.2" H x 4.65 6.17 0.84 SBC-4M-CB 4. DX2 (Ref gas out) DX1 (Ref liq in) SB2 (subcooled liq in) SB1 (subcooled liq out) 55 .95 1.12 0.Menu SBC-CB .95 1.16 5.95 1.2 673-02 CB27-34H S33 32870 0071 4 1-1/8" 1-1/8" 12.9 3.62 20.5 1.5 0.97 20.43 SBC-25XL-CB 25 675-01 CB76-50H S89 32870 0096 0 2-1/8" 2-1/8" 65.43 Nominal Tons .) Dry Wt.43 SBC-30XL-CB 32 675-01 CB76-60H S89 32870 5095 2 2-1/8" 2-1/8" 75 7.5 673-01 CB27-12H S15 32870 0075 4 5/8" 5/8" 6.3 5.84 Frame Size 20.62 20.58 3. Water "B" "C" Working Pressure 500 PSIG SBC-03S-CB 0.4 0.6 673-03 CB27-54H S52 32870 0056 3 1-1/8" 1-1/8" 18.95 0.5M-CB 5.71 SBC-10L-CB 11 674-01 CB52-30H S52 32870 7552 1 1-1/8" 1-1/8" 19.71 SBC-17L-CB 17 674-03 CB52-50H S52 32870 7552 3 1-1/8" 1-1/8" 24. 40°F SST.3 4.58 3.2 2.3 673-03 CB27-64H S52 32870 0056 4 1-1/8" 1-1/8" 21.58 3.26 3.72 1.95 1.6 0.Ideal for low temperature applications.3 1.Copper-Brazed Plate Heat Exchangers Subcoolers Subcooling cools liquid refrigerant adding more Btu's per pound . 6°F Superheat For performance with other refrigerants and/or fluids other than water.7" H x 4.95 1. Model Nominal HP* ¾" Insulation Kit Description Part Number Connections (ids) Ref.4" W Working Pressure 450 PSIG SBC-1.78 Frame Size 12.62 20.1" W Subcooled Ref liq In/ Out Four Frame Sizes Dimensions (in.95 1.6 2.8 2 0.2" H x 3.7 0.95 1.Suc.77 7.05 4.4 4.4 673-01 CB27-18H S33 32870 0071 2 7/8" 7/8" 7.58 3.) "D" "A" liq.23 0.1 1.3 671-01 CB14-12H S15 32870 5256 7 5/8" 5/8" 2.Liquid Ref to be subcooled from 110°F to 50°F.4 0.84 SBC-2M-CB 2.4" W SBC-7.58 3.4 671-01 CB14-14H S15 32870 0075 5 5/8" 5/8" 3.5 0.95 1.95 1.97 20.97 9.62 20.05 1.95 1.6 4.61 1.84 SBC-5M-CB 5 673-02 CB27-44H S52 32870 0056 2 1-1/8" 1-1/8" 15. 95 1.43 SBC-50XL-AC 53 675-02 AC-120-106EQ S62 32870 6145 6 1-1/8.35 SBC-6L-AC 6 674-01 AC-70-22MY S21 32870 6720 7 5/8.6 0.97 18.62 20.Menu Subcoolers SBC-AC .1 1.95 1.54 10.2 1.4 0.9 0. 2-1/8 2-1/8 119.2 2.9 0.43 SBC-25XL-AC 23 675-01 AC-120-46EQ S62 32870 6145 2 1-1/8.5 0.95 1.4" W Working Pressure 450 PSIG Frame Size 33. 2-1/8 2-1/8 104.2 2.97 18.2 3.54 10.7 6.62 20.95 1.35 SBC-15L-AC 16 674-03 AC-70-50MY S24 32870 6721 1 5/8.62 20.43 SBC-75XL-AC 74 675-03 AC-120-150EQ S76 32870 6145 8 1-3/8.6 SBC-4L-AC 4 674-01 AC-70-14MY S21 32870 6720 4 5/8.5 672-01 AC-30-10EQ R52 32870 6134 6 3/8. 2-1/8 2-1/8 162. 2-1/8 2-1/8 45. 1-1/8 1-1/8 18.2 0.7" W Working Pressure 435 PSIG Nominal Tons . 1-1/8 1-1/8 9.35 SBC-12L-AC 13 674-02 AC-70-42MY S24 32870 6721 0 5/8.2 4.58* 3.62 20. please contact Customer Service.35 SBC-23L-AC 23 674-03 AC-70-78MY R49 32870 6721 5 7/8.1 0. 1-3/8 1-3/8 27.95 1.7" W Subcooled Ref liq In/ Out Dimensions (in.6 12 0.3 4. 1-1/8 1-1/8 22. 2-1/8 2-1/8 61.6 4.7 3 0.6 1.43 Frame Size 20. 40°F SST.62 20.AlfaChill Copper-Brazed Plate Heat Exchangers .3 0. (lbs.1 0.9 1.35 SBC-18L-AC 18 674-03 AC-70-58MY S24 32870 6721 2 5/8.3 5.7 0. Liq/ Suction DX1 in/DX2 out Frame Size 12.4 1.6 10. Water "B" "C" Working Pressure 450 PSIG SBC-2M-AC 1. 1-1/8 1-1/8 16.3 0.58* 3.5 0.97 18.6 1.97 18. 1-1/8 1-1/8 11.6 0.35 SBC-30L-AC 31 674-03 AC-70-100MY R49 32870 6721 7 7/8.58* 3.Suc.6 SBC-12M-AC 12 672-03 AC-30-80EQ S21 32870 6135 3 5/8.54 10.43 SBC-60XL-AC 62 675-03 AC-120-124EQ S62 32870 6145 7 1-1/8.7 0. 1-1/8 1-3/8 29.4 0.95 1.97 18.2 1.1 1.35 SBC-35L-AC 37 674-03 AC-70-118MY R49 32870 6721 8 7/8.97 18. 7/8 7/8 4. 1-3/8 1-1/8 22. 2-1/8 2-1/8 55.) "D" "A" liq.54 10.1 8.54 10.97 18. The SBC-AC Subcoolers are copper-brazed and feature a built-in distributor.6 SBC-6M-AC 6 672-02 AC-30-40EQ S09 32870 6134 9 1/2.2 6. SB2 DX2 (Ref gas (subcooled out) liq in) DX1 SB1 (Ref liq (subin) cooled liq out) 56 .62 20.5 0. 7/8 7/8 10.2 0.95 1. R-22.1 12.54 10.95 1.8 1.2 3.43 SBC-85XL-AC 85 675-03 AC-120-180EQ S76 32870 5589 6 1-3/8.97 18.35 SBC-15XL-AC 14 675-01 AC-120-30EQ S46 32870 6145 1 7/8.54 10.95 1.6 SBC-3M-AC 3 672-01 AC-30-20EQ R52 32870 6134 7 3/8.58* 3.54 10.6 SBC-9M-AC 9 672-02 AC-30-60EQ S21 32870 6135 1 5/8. 1-3/8 1-1/8 19.4 10.97 18.95 1.5 7.95 1. 1-1/8 1-1/8 15. 1-3/8 1-3/8 33.95 1.95 1.3 14. 1-1/8 1-1/8 8.62 20.1 0.6 SBC-15M-AC 15 672-03 AC-30-100EQ S21 32870 6135 4 5/8.58* 3.95 1.4 17.35 SBC-25L-AC 25 674-03 AC-70-90MY R49 32870 6721 6 7/8.95 1.8" H x 3.6 SBC-10M-AC 10 672-03 AC-30-70EQ S21 32870 6135 2 5/8.2 2.35 SBC-21L-AC 21 674-03 AC-70-78MY R49 32870 6721 4 5/8.95 1.Ideal for low temperature applications.97 18.58* 3.97 18. 1-3/8 1-3/8 42.3 7 0.43 SBC-30XL-AC 30 675-01 AC-120-60EQ S62 32870 6145 3 1-1/8.62 20. 6°F Superheat For performance with other refrigerants and/or fluids other than water.5 5.4 4.9 3. 2-1/8 2-1/8 137.62 20.97 18.95 1.6 SBC-7M-AC 7 672-02 AC-30-50EQ S21 32870 6135 0 5/8.58* 3.95 1. Three Frame Sizes Model Nominal HP* ¾" Insulation Kit Description Part Number Connections (ids) Ref.9 0. 1-1/8 1-1/8 12.Liquid Ref to be subcooled from 110°F to 50°F. 2-1/8 2-1/8 191.5 0.58* 3. 1-3/8 1-1/8 25.35 SBC-10L-AC 10 674-01 AC-70-32MY S21 32870 6720 9 5/8.6 SBC-4M-AC 4 672-01 AC-30-30EQ S09 32870 6134 8 1/2. 1-1/8 1-1/8 14.95 1.58* 3.95 1.2 5.97 18. 1-3/8 1-3/8 49.3 0. 7/8 7/8 6.9 3.95 1.35 SBC-8L-AC 8 674-01 AC-70-26MY S21 32870 6720 8 5/8.43 SBC-40XL-AC 38 675-02 AC-120-76EQ S62 32870 6145 4 1-1/8.43 SBC-45XL-AC 45 675-02 AC-120-90EQ S62 32870 6145 5 1-1/8.7" H x 4.3 1.95 1.54 10.) Dry Wt.4 1.58* 3.High Efficiency Designed to cool liquid refrigerant adding more Btu's per pound . 1-3/8 1-3/8 38.43 SBC-20XL-AC 19 675-01 AC-120-40EQ S46 32881 0214 0 7/8.95 1. 1-1/8 1-1/8 12.97 18. 2-1/8 2-1/8 90. 2-1/8 2-1/8 75 6.5" H x 12.5 9.35 SBC-5L-AC 5 674-01 AC-70-18MY S21 32870 6720 6 5/8.35 SBC-20L-AC 19 674-03 AC-70-62MY S25 32870 6721 3 5/8. 7/8 7/8 8.62 20.7 7.7 8.3 3. Lowside Chiller Builder Kits from Standard Refrigeration Our ChillerBuilder Kits allow you to assemble a modular chiller solution in under an hour. Available from 2 to 75 tons. these kits provide all you need to build the low-side of a chiller system.Menu Chiller Builder Kit . brand-name controls and components and custom-cut piping and framework.Consult factory. Select a condensing unit and you've got a modular chiller perfect for spacetight commercial AC applications or boosting existing system capabilities. You spec. Flow-switch Contractor favorite TX shell-and-tube serviceable chiller barrel Preset temperature controls Expansion valves Solenoid valve Sightglass Temperature probe Control Box Low pressure switch Custom-cut piping Custom cut brackets and framework *Chiller Builder Kits can be custom ordered for use with R410A . You get the reliable TX evaporator. Why let some OEM limit your capabilities? With Standard: You design. You Profit. 57 . 1*** 30 1 TXC30-1 TXCKIT5 – – 63 22 16 90 3 1 1⁄8 2 5⁄8 CBKIT40 . * Tonnage capacities based on TXV capacities at 35 F suction. All Chiller Builder Kits can be special ordered for use with refrigerant R410a.1** 25 1 TX25-1 TXKIT4 32 20 3⁄8 29 18 21 44 1⁄4 3 7⁄8 2 5⁄8 CBKIT30 . Chiller Builder kits without chiller barrel are available. two.Menu Chiller Builder Kit . ideal for achieving up to 20 tons with single-phase compressors Available in ranges from two to 75 tons Entire kit can be assembled in less than one hour Chiller barrel included NEW-includes Digital Controls Can be special ordered for R410a applications Included components • Framework • Temperature controls • Low pressure switch • Expansion valve • Solenoids • Control power supplies • Freezestat • Flow switch • Sight glasses • NEW-Includes Digital Controls .5 . Call the factory for more information.1 10 CBKIT12 .1 71⁄2 1 CBKIT10 . (fpt) Liquid Conn.1 3 1 TX 3-1 TXKIT2 CBKIT5 . and CBKIT25-1 *** Kits 30 through 75 tons include unloading feature.Lowside Lowside ChillerBuilder Kits with digital controls Kits now available up to 75 Tons Design Features and Ratings ChillerBuilder Kit Dimensions Kit Nominal Tons* Circuits Chiller Barrel TX-Kit CBKIT2 .1 2 1 TX2-1 TXKIT1 CBKIT3 .1** 20 1 TX20-1 TXKIT4 32 20 3⁄8 29 18 21 44 1⁄4 3 7⁄8 2 1⁄8 CBKIT25 . three and four circuit options NEW three and four circuit models available. (ids) B C 21 18 1⁄4 19 3⁄4 14 14 30 1⁄4 1 5⁄8 7⁄8 26 18 1⁄4 19 3⁄4 18 14 30 1⁄4 1 5⁄8 7⁄8 TXKIT2 26 18 1⁄4 31 3⁄8 18 16 42 1⁄4 1 1⁄4 5⁄8 1 1⁄8 TX 6-1 TXKIT3 27 18 1⁄4 31 1⁄8 18 19 42 1⁄4 1 1⁄2 5⁄8 1 1⁄8 TX 71⁄2-1 TXKIT3 27 18 1⁄4 31 1⁄8 18 19 42 1⁄4 1 1⁄2 5⁄8 1 5⁄8 1 TX10-1 TXKIT3 27 18 1⁄4 30 3⁄8 18 19 42 1⁄4 2 5⁄8 1 5⁄81 12 1 TX12-1 TXKIT3 27 19 3⁄8 30 1⁄8 18 21 43 1⁄4 2 5⁄8 1 5⁄8 CBKIT15 .3⁄4 – – – 23 1⁄4 80 2 1⁄2 3⁄8 1 1⁄8 CBKIT20-4 20 4 TX20-4 TXKIT20-4 30. All Chiller Builder Kits include chiller barrel. Kits with no unloading feature are also available. • • • • • • • • • 58 Uses compact TX/TXC chiller barrel Brand name components One. 115 F condensing temperature.1*** 40 1 TXC40-1 TXCKIT6 – – 63 24 17 90 3 1 3⁄8 2 5⁄8 CBKIT10-2 10 2 TX10-2 DTXKIT 10-12 29 18 1/4 30 3/8 20 17 45 1/4 2 5/8 1 5/8 CBKIT12-2 12 2 TX12-2 DTXKIT 10-12 29 19 3/8 30 1/8 20 19 46 1/4 2 5/8 1 5/8 CBKIT15-2 15 2 TX15-2 DTXKIT 15-20 29 19 3⁄8 29 5/8 20 21 46 1⁄4 2 1/2 5⁄8 2 1⁄8 CBKIT20-2 20 2 TX20-2 DTXKIT 15-20 29 19 3/8 29 20 21 46 1/4 3 5/8 2 1/8 CBKIT25-2 25 2 TX25-2 DTXKIT 15-20 29 19 3⁄8 29 20 21 46 1⁄4 3 5⁄8 2 5⁄8 CBKIT30-2*** 30 2 TXC30-2 DTXCKIT 30 – – 63 22 19 90 3 7⁄8 1 5⁄8 CBKIT40-2*** 40 2 TXC40-2 DTXCKIT 40 – – 63 24 20 90 3 1 1⁄8 1 5⁄8 CBKIT50-2*** 50 2 TXC50-2 DTXCKIT 50 – – 63 24 20 90 4 1 1⁄8 2 1⁄8 CBKIT60-2*** 60 2 TXC60-2 DTXCKIT 60 – – 73 24 22 104 4 1 1⁄8 2 1⁄8 CBKIT75-2*** 75 2 TXC75-2 DTXCKIT 75 – – 73 24 22 104 5 1 3⁄8 2 5⁄8 CBKIT15-3 15 3 TX15-3 TXKIT15-3 30. (ids) Suction Conn. 54 F inlet water.1 5 1 TX 5-1 CBKIT6 .1** 15 1 TX15-1 TXKIT4 32 20 3⁄8 29 5⁄8 18 21 44 1⁄4 2 1⁄2 7⁄8 2 1⁄8 CBKIT20 . and 44 F outlet water using R-22 ** Pumpdown cycle included with CBKIT15-1.3⁄4 – – – 23 1⁄4 80 3 3⁄8 1 1⁄8 1-Circuit 2-Circuit Multi Circuit 120 volts required to operate Chiller Builder Kits. CBKIT20-1.1 A D H L W P Q Water Conn.1 6 1 CBKIT7. inlet CBKIT20-4 freeze protection low pressure switch (4) L sight glass solenoid valve (4) expansion valve (4) control box CONTROL BOX Q Refrig. outlet H W fluid outlet D evaporation (included with kit) expansion valve P refig. outlet OFF 1-Circuit H expansion valve D P refig.Lowside Chiller Builder Kits C B control box water fittings temperature probe COMP 2 CONTROL SWITCH ON evaporation (included with kit) OFF W fluid outlet CIRCUIT BREAKER solenoid valve sight glass ON freeze protection low pressure switch W fluid outlet flow switches COMP 1 CONTROL SWITCH control switches Q refrig. outlet L A 3 & 4 Circuit W fluid out W fluid in NOTE: Connection locations vary between 3&4 circuit models flow switch temperature probe evaporator (included) H control switch CBKIT15-3 freeze protection low pressure switch (3) solenoid valve (3) expansion valve (3) sight glass control box Q Refrig. out H H P Refrig. inlet L 59 . outlet A L 2-Circuit flow switches B C control box COMP 1 CONTROL SWITCH CIRCUIT BREAKER ON COMP 2 CONTROL SWITCH OFF ON freeze protection low pressure switch W fluid outlet water fittings temperature probe solenoid valve sight glass OFF control switches Q refrig.Menu Chiller Builder Kit . out H P Refrig. Menu Liquid Receivers Design Features and Ratings Conformance Each Standard stock receiver conforms to UL, CSA or ASME requirements for 450 psi maximum working pressure. Models with an internal diameter under six inches are UL listed; all larger models are made according to ASME code and tagged appropriately. Pumpdown and Refrigerant Charge All pumpdowns are calculated at 80% capacity of liquid. Note on Refrigerant R410a Applications Due to the high working pressures of Refrigerant R410a. Any Receivers product in our catalog must be customized to conform to ASME construction. Please contact customer service for quotation. Selection Pumpdown Calculation Procedure Refer to table for calculating pumpdown capacity of any Standard receiver design with elliptical ends. Pumpdown figures shown have been compensated to directly give capacity on 80% of the receiver volume filled with liquid at 90°F. Approximately 10% of pumpdown capacity is required to operate receiver properly. Custom and Ammonia Construction To figure pumpdown capacity, locate the receiver OD in the first Custom receivers for halocarbons and ammonia can be built column and read across to find the values for length correction based on application and construction criteria. Receivers may and pounds of pumpdown for refrigerant used. Substitute be ordered with or without extra features such as mounting those values in this formula: brackets, fusible plugs, special fittings, liquid level indicators and alarm switches, to assure reliable service on virtually any application involving halocarbon type refrigerants. Pumpdown = (overall length - length correction) x (pumpdown per inch) To calculate overall length required for the given OD and specified pumpdown capacity, follow the same procedure given above, using thisformula: Overall length = (pumpdown required ÷ pumpdown per inch) + (length correction Receiver OD (inches) 4 Length Correction (inches) 0.9 Pumpdown End to Weld (inches) Capacity pounds per inch effective length R-22 0.38 R-134A 0.38 R404A 0.33 R410A 0.39 1 7/8 5 1.1 0.60 0.61 0.52 0.62 1 7/8 6 1.2 0.88 0.89 0.76 0.91 2 3/8 6 5/8 1.4 1.06 1.08 0.92 1.10 2 7/8 8 5/8 1.8 1.82 1.84 1.58 1.88 3 1/8 10 3/4 2.3 2.80 2.84 2.44 2.89 4 1/2 12 3/4 2.6 3.96 4.01 3.45 4.09 5 1/2 14 2.9 4.77 4.83 4.15 4.93 5 7/8 16 3.2 6.31 6.38 5.49 6.52 6 3/8 18 3.7 7.94 8.03 6.90 8.20 6 3/4 20 4.0 9.89 10.01 8.60 10.22 7 1/4 24 4.9 14.11 14.28 12.28 14.58 8 1/2 30 5.2 22.44 22.71 19.52 23.19 10 36 5.6 32.68 33.07 28.43 33.77 11 1/2 L UR HR RBV 60 UV Menu HR - Horizontal Receivers Design Features and Ratings Models Pumpdown* (lbs) R-22 285 16 Dimensions (inches) R-134A 16 D 5 L 28 Connections (inches) A 3 B 25 P (ids) 5/8 Q (ids) 5/8 Shipping Weight (lbs) S (fpt) 3/8 19 306 25 26 6 30 3 5/8 26 3/8 5/8 5/8 3/8 24 366 31 31 6 36 3 5/8 32 3/8 5/8 5/8 3/8 31 3865 39 40 6 5/8 38 4 3/8 33 5/8 7/8 5/8 1/2 42 2885 48 48 8 5/8 28 4 5/8 23 3/8 1 1/8 7/8 1/2 45 3685 62 63 8 5/8 36 4 5/8 31 3/8 1 1/8 7/8 1/2 65 4285 73 74 8 5/8 42 4 5/8 37 3/8 1 1/8 7/8 1/2 71 4885 84 85 8 5/8 48 4 5/8 43 3/8 1 1/8 1 1/8 1/2 77 6085 106 107 8 5/8 60 4 5/8 55 3/8 1 1/8 1 1/8 1/2 108 36105 94 96 10 3/4 36 6 1/2 29 1/2 1 3/8 1 3/8 1/2 115 48105 128 130 10 3/4 48 6 1/2 41 1/2 1 3/8 1 3/8 1/2 138 60105 162 164 10 3/4 60 6 1/2 53 1/2 1 3/8 1 3/8 1/2 166 72105 195 198 10 3/4 72 6 1/2 65 1/2 1 3/8 1 3/8 1/2 196 96105 262 266 10 3/4 96 6 1/2 89 1/2 1 5/8 1 3/8 1/2 285 48122 180 182 12 3/4 48 8 40 1 5/8 1 3/8 1/2 182 60122 227 230 12 3/4 60 8 52 1 5/8 1 3/8 1/2 218 72122 275 278 12 3/4 72 8 64 2 1/8 1 3/8 1/2 260 96122 370 375 12 3/4 96 8 88 2 1/8 1 3/8 1/2† 360 72145 330 334 14 72 8 3/8 63 5/8 2 1/8 1 5/8 1/2† 316 96145 444 450 14 96 8 3/8 87 5/8 2 5/8 2 1/8 1/2† 425 60166 358 362 16 60 8 7/8 51 1/8 2 5/8 2 1/8 1/2† 306 72166 434 439 16 72 8 7/8 63 1/8 2 5/8 2 1/8 1/2† 380 96166 586 592 16 96 8 7/8 87 1/8 2 5/8 2 1/8 1/2† 486 72188 542 548 18 72 9 7/8 62 1/8 3 1/8 2 1/8 1/2† 510 72201 673 681 20 72 10 1/2 61 1/2 3 1/8 2 5/8 1/2† 570 84201 791 801 20 84 10 1/2 73 1/2 3 1/8 2 5/8 1/2† 639 96201 910 921 20 96 10 1/2 85 1/2 3 1/8 2 5/8 1/2† 756 96241 1,285 1,301 24 96 12 1/2 83 1/2 3 5/8 3 1/8 3/4† 1000 12241 1,624 1,644 24 120 13 107 4 1/8 3 5/8 3/4† 1250 12301 2,576 2,607 30 120 15 105 4 1/8 3 5/8 3/4† 1800 * All pumpdowns are calculated at 80% of receiver volume † Safety fitting located 30° above centerline below refrigerant outlet Use the following multipliers for refrigerants other than shown above: R-12= R-22 capacity X 1.10 R-502= R-22 capacity X 1.01 R-404A= R-22 capacity X 0.89 R-507= R-22 capacity X 0.88 Working Pressure: 450 psi Tag location may vary per model. 61 Menu RBV - Horizontal Receivers with Brackets and Valves Design Features and Ratings Model Pumpdown* (lbs) R-22 Dimensions (inches) R-134A D L A Connections B E F P & Q (ids) Valve Part Number Ship Wt (lbs) S (fpt) RBV-285 16 16 5 28 3 25 7 21 1/2 3/8 V04ST 24 RBV-366 31 31 6 36 3 5/8 32 3/8 9 27 1/2 3/8 V04ST 35 RBV-3865 39 40 6 5/8 38 4 5/8 33 5/8 9 1/2 28 1/2 5/8 1/2 V05ST 45 RBV-3685 62 63 8 5/8 36 4 5/8 31 3/8 9 27 7/8 1/2 V07ST 69 RBV-4285 73 74 8 5/8 42 4 5/8 37 3/8 10 1/2 31 1/2 1 1/8 1/2 V09ST 75 RBV-36105 94 96 10 3/4 36 6 1/2 29 1/2 9 27 1 1/8 1/2 V09ST 117 RBV-48105 128 130 10 3/4 48 6 1/2 41 1/2 12 36 1 1/8 1/2 V09ST 145 RBV-60105 162 164 10 3/4 60 6 1/2 53 1/2 15 45 1 1/8 1/2 V09ST 170 RBV-48122 180 182 12 3/4 48 8 40 12 36 1 3/8 1/2 V11ST 186 RBV-60122 227 230 12 3/4 60 8 52 15 45 1 3/8 1/2 V11ST 224 RBV-72145 330 334 14 72 8 3/8 63 5/8 18 54 1 5/8 1/2† valve-85A 339 RBV-96145 444 450 14 96 8 3/8 87 5/8 24 72 1 5/8 1/2† valve-85A 448 RBV-96166 586 592 16 96 8 7/8 87 1/8 24 72 2 1/8 1/2† valve-621A 510 * All pumpdowns are calculated at 80% of receiver volume † Safety fitting located 30° above centerline below refrigerant outlet Use the following multipliers for refrigerants other than shown above: R-12= R-22 capacity X 1.10 R-502= R-22 capacity X 1.01 R-404A= R-22 capacity X 0.89 R-507= R-22 capacity X 0.88 Working Pressure: 450 psi L B A S safety P inlet outlet Q S safety RBV 30° D TAG E F Tag location may vary per model. 62 outlet Q A D Tag location may vary per model. 63 .Upright Receivers Design Features and Ratings Model Pumpdown* (lbs) R-22 Dimensions (inches) R-134A D H Connections A B P (ids) Q (ids) S (fpt) Ship Wt (lbs) UR-20 18 19 8 5/8 12 5 7 5/8 5/8 3/8 29 UR-28 26 26 8 5/8 16 5 11 5/8 5/8 3/8 35 UR-48 44 45 10 3/4 18 6 11 1/2 1 1/8 7/8 1/2 60 UR-66 61 62 12 3/4 18 6 5/8 11 3/8 1 1/8 1 1/8 1/2 80 UR-72 67 68 12 3/4 20 6 5/8 13 3/8 1 1/8 1 1/8 1/2 88 UR-84 85 85 12 3/4 24 6 5/8 17 3/8 1 1/8 1 1/8 1/2 98 UR-108 101 102 14 24 7 1/2 16 1/2 1 3/8 1 3/8 1/2 111 UR-137 131 133 16 24 8 16 1 3/8 1 3/8 1/2 140 UR-151 156 158 12 3/4 42 6 7/8 34 1/2 1 3/8 1 3/8 1/2 170 UR-174 161 163 18 24 8 3/4 12 1/4 1 5/8 1 5/8 1/2 175 UR-201 206 208 14 46 7 5/8 37 1/2 1 5/8 1 5/8 1/2 210 UR-276 283 286 16 48 8 1/8 39 2 1/8 1 5/8 1/2 245 UR-351 358 362 16 60 8 3/8 51 2 5/8 2 1/8 1/2 300 9 52 1/2 2 5/8 2 1/8 1/2 435 UR-451 463 468 18 62 * All pumpdowns are calculated at 80% of receiver volume † Safety fitting located 30° above centerline below refrigerant outlet Use the following multipliers for refrigerants other than shown above: R-12= R-22 capacity X 1. inlet B refrig.89 R-507= R-22 capacity X 0.88 Working Pressure: 450 psi S safety 3 legs equally spaced 120° apart H TAG P refrig.10 R-502= R-22 capacity X 1.01 R-404A= R-22 capacity X 0.Menu UR . Upright Receivers with Valves Design Features and Ratings Model Pumpdown* (lbs) R-22 Dimensions (inches) R-134A D H Connections A B P& Q (ids) S (fpt) Valve Part Number Ship Wt (lbs) UV-30 29 30 8 5/8 18 5 1/8 12 7/8 1/2 3/8 H04ST 40 UV-40 40 41 8 5/8 24 5 1/8 19 3/8 5/8 3/8 H05ST 47 UV-50 55 56 8 5/8 32 5 1/4 26 3/4 7/8 3/8 H07ST 60 UV-70 72 73 10 3/4 28 6 21 1/2 1 1/8 1/2 H09ST 90 UV-100 100 101 10 3/4 38 6 31 1/2 1 1/8 1/2 H09ST 120 UV-125 132 134 12 3/4 36 6 5/8 29 3/8 1 1/8 1/2 H09ST 160 UV-150 156 158 12 3/4 42 6 5/8 34 1/2 1 1/8 1/2 H09ST 175 UV-200 206 208 14 46 7 1/2 37 1/2 1 3/8 1/2 H11ST 215 UV-275 283 286 16 48 8 1/8 39 1 5/8 1/2 valve-85A 250 UV-350 358 362 16 60 8 1/8 51 1 5/8 1/2 valve-85A 305 UV-450 463 468 18 62 8 3/4 52 1/2 1 5/8 1/2 valve-85A 440 * All pumpdowns are calculated at 80% of receiver volume † Safety fitting located 30° above centerline below refrigerant outlet Use the following multipliers for refrigerants other than shown above: R-12= R-22 capacity X 1.89 R-507= R-22 capacity X 0.88 Working Pressure: 450 psi S safety 3 legs equally spaced 120° apart H P refrig.10 R-502= R-22 capacity X 1.01 R-404A= R-22 capacity X 0.Menu UV . inlet TAG B refrig. outlet Q A D Tag location may vary per model. 64 t . inlet Q (ids) P refrig.3 25.88 Working Pressure: 500 psi S safety w/430° fusible plug A D Refrig.7 3 5⁄8 6 30 2 1⁄2 5/8 5/8 3⁄8 1⁄2”-13 x 1 29 * All pumpdowns are calculated at 80% of receiver volume Use the following multipliers for refrigerants other than shown above: R-12= R-22 capacity X 1. outlet with brazed on flare valve A S safety w/430° fusible plug Refrig.0 5. outlet with brazed on flare valve H B W weld screw P refrig.95 na 4 8 2 11⁄16 3⁄8 3⁄8 1⁄8 3⁄8”-16 x 1 7 L-413C 5.Receivers with Valve and Fusible Plug Design Features and Ratings Model Pumpdown* (lbs) R-22 R-134A Dimensions (inches) B D H Connections A P (ids) Q (flare) S (fpt) W Weld Screw Ship Wt (lbs) L-408C 2.45 3 1⁄2 5 16 2 1⁄2 1⁄2 1/2 3⁄8 3⁄8”-16 x 1 14 L-618C 15.56 3 1⁄2 6 18 2 1⁄2 1⁄2 1/2 3⁄8 1⁄2”-13 x 1 19 L-623C 19. inlet Q (flare) W weld screw D 65 .89 R-507= R-22 capacity X 0.3 15.10 R-502= R-22 capacity X 1.9 2.7 20.3 9.01 R-404A= R-22 capacity X 0.Menu Compact Vertical L .10 3 1⁄2 4 13 1⁄2 2 1⁄2 3⁄8 3⁄8 3⁄8 3⁄8”-16 x 1 10 L-516C 9.03 3 1⁄2 6 23 2 1⁄2 1⁄2 1/2 3⁄8 1⁄2”-13 x 1 24 L-630C 25. 8 0.0 8 5/8 29 1⁄2 30.5 1 5/8 1 3⁄8 47 NA 43 2 1/8 1 3⁄8 48 MAX 58.0 1.0 175.1 18. 66 A 1/2" safety on boil-out coil models only 1/4" drain available only on models with 'C' suffix.6 1.6 19.8 0. Low pressure drop Acts as a suction muffler Corrosion resistant paint A.2 92.0 1 5⁄8 71 MIN 9.1 61.0 12 3/4 A-14418C 0.2 2 1/8 1 5⁄8 70 NA 66 MAX 89.M. (lbs) R-22 Dimensions A A-6118 B Shipping Weight (lbs) C (ids) 23 1⁄2 A-6118C 21.0 Use the following multipliers for refrigerants other than shown above: R-404A= R-22 capacity x 0.8 25 1⁄2 A-14418 -20° 4. Cap.8 6 5/8 A-6138 27 1⁄2 1 1/8 21.5 0.3 NA 65 MIN 6.5 3 1/8 33 1⁄2 125.5 1.0 28.2 2.0 NA 42 MIN 3.0 10 3/4 A-8158 A-8218 A-10218 A-10218C A-10258C 44.0 14 36 3⁄4 4 1/8 2 1⁄8 97 NA 157 MAX 250.1 26.E.89 Models with ‘C’ suffix include boil-out coil heat exchanger for R-507= R-22 capacity x 0.5 NA 72 1 5⁄8 77 MAX 132.S.6 9.0 20.6 4.1 8.2 41.0 76.5 2.6 4. ( °F ) Vertical installation for smaller footprint Prevents compressor damage due to slugging of refrigerant and oil Positive oil return at all rated conditions Designed for low temperature application • • • • Working Pressure: 450 psi.6 7.2 10.0 10 3/4 A-10318C 49.0 2 1⁄8 162 MIN 33.6 22 1⁄22 A-10318 +40° MIN 22 1⁄22 A-10258 MAX MAX 1 3/8 25 1⁄2 26 26 22 3⁄4 A-8218C NA 31 25 3⁄4 A-8158C E (ids) 7⁄8 23 1⁄2 A-6158C R-22 NA 23 1⁄2 A-6138C Recommended Tons of Refrigeration Suction Evaporator Temp.5 0.1 6 5/8 27 1⁄2 31.1 40.Menu A .8 2 5/8 25 1⁄2 0° 6.1 61.0 10 3/4 73.6 4.2 12.6 7.4 6.2 11.1 18.3 40.9 24 15⁄16 A-12318 A-12318C 25 1⁄2 +20° 9.5 12.7 3 1/8 28 1⁄2 -40° 2.3 1. Coded Construction C inlet outlet 3 legs equally spaced 120° apart A B Boil out coil models only on models with 'C'suffix.1 28.1 3.0 NA 92 MIN 15.9 1 1⁄8 31 MIN 1.0 16.Suction Accumulators with or without boil-out coil Design Features and Ratings Models Refrig.6 13.1 5.0 116.1 0.0 8 5/8 29 1⁄2 45.4 28.8 5.0 54.0 7.0 6 5/8 A-6158 27 1⁄2 20.0 25.9 NA 27 1 5/8 1 1⁄8 32 MAX 27.8 1.1 15.4 2.8 4.1 6.88 additional protection • • • • 1. . 3 1.78 1.5M-CB 3.5 0.8 CB27-34H S52 3287 0007 14 1-1/8" 1-1/8" 12.5 CB27-54H S52 3287 0005 63 1-1/8" 1-1/8" 18.4 0.Copper-Brazed Plate Heat Exchanger Desuperheaters Heat Reclaim Model Two Frame Sizes Nominal HP* Description Part Number Connections (ids) Hot Gas In/Out S3/ S4 Liq.3 5.97 9. contact Customer Service S4 (Ref out) S1 (Liq in) S3 (Ref in) S2 (Liq out) 67 .95 1.95 1.5M-CB 2.6 0.4" W 3287 0007 54 Dimensions (in.97 9.84 DSP-3M-CB 2. Refrigerant side less than 10 psi For larger capacities or additional information.97 9.97 9.6 2.97 9.3 CB27-44H S52 3287 0005 62 1-1/8" 1-1/8" 15.97 9. In/Out S1/S2 Frame Size 8.4 4.1" W DSP-05S-CB 0.0001 Ft2/hr/Btu Pressure drop: Water side less than 2 psi.84 DSP-2M-CB 1.6 0.2" H x 4.84 DSP-1. (lbs.97 9.84 * Nominal Operating Conditions: 180°F EGT.Menu DSP-CB .95 1.8 2 0.5 0.2" H x 3.5 3.84 DSP-3.7 0.95 1.) "D" "A" "B" "C" Working Pressure 500 PSIG 5/8" Frame Size 12.) 3.65 6.3 CB27-64H S52 3287 0005 64 1-1/8" 1-1/8" 21.95 DSP-1M-CB 1 CB27-18H S33 3287 0007 12 7/8" 7/8" 7.5 CB14-14H S15 DSP-05M-CB 0.95 1.5 CB27-12H S15 3287 0007 55 5/8" 5/8" Dry Wt.95 1.2 6. 90°F EWT.1 1.5 0.95 1. 140°F LWT FF=0.84 Working Pressure 450 PSIG 5/8" 6.5 CB27-24H S33 3287 0007 13 7/8" 7/8" 9.84 DSP-2.5M-CB 1. Menu Valve Rotalock® Product Accessories Design Features and Ratings A gage port B C E D body Connections Body Coupling Top Gage Port Left Gage Port Right Gage Port body connection coupling connection Body Size Dimensions (inches) A B C D E 3/8 flare 3/4–16 H03FT H03FL H03FR 3/4 hex 3 23⁄32 1 17⁄32 1 3⁄16 25⁄32 1 1/2 flare 1–14 H04FT H04FL H04FR 7/8 sq 4 1/8 1 23⁄32 1 5⁄16 3/4 1 1⁄16 5/8 flare 1–14 H05FT H05FL H05FR 7/8 sq 4 3/8 1 31⁄32 1 9⁄16 3/4 1 1⁄16 1/2 ids 1–14 H04ST H04SL H04SR 7/8 sq 4 1⁄32 1 5/8 1 7⁄32 3/4 1 1⁄16 5/8 ids 1–14 H05ST H05SL H05SR 7/8 sq 4 9⁄32 1 7/8 1 15⁄32 3/4 1 1⁄16 7/8 ids 1 1/4–12 H07ST H07SL H07SR 1 1/8 sq 5 3/8 2 11⁄32 1 11⁄16 31⁄32 1 3⁄16 1 1/8 ids 1 1/4–12 H09ST H09SL H09SR 1 1/8 sq 5 5/8 2 19⁄32 1 15⁄32 31⁄32 1 3⁄16 1 3/8 ids 1 3/4–12 H11ST H11SL n/a 1 3/8 sq 7 3⁄16 3 5⁄16 2 15⁄32 1 3⁄16 1 5⁄16 Use stem end of valve & coupling connection as reference when determining gage port position body gage port body connection E A B C D coupling connection Connections Left Gage Port Right Gage Port Body Size Dimensions (inches) Coupling Top Gage Port A B 3/8 flare 3/4–16 V03FT V03FL V03FR 3/4 hex 3 1⁄16 1 5⁄32 13⁄16 1 1/8 1 1/2 flare 1–14 V04FT V04FL V04FR 7/8 sq 3 5⁄16 1 9⁄32 7/8 1 9⁄32 1 1⁄16 5/8 flare 1–14 V05FT V05FL V05FR 7/8 sq 3 5⁄16 1 9⁄32 7/8 1 17⁄32 1 1⁄16 1/2 ids 1–14 V04ST V04SL V04SR 7/8 sq 3 11⁄16 1 9⁄32 7/8 1 1⁄32 1 1⁄16 5/8 ids 1–14 V05ST V05SL V05SR 7/8 sq 3 11⁄16 1 9⁄32 7/8 1 1⁄32 1 1⁄16 7/8 ids 1 1/4–12 V07ST V07SL V07SR 1 1/8 sq 4 25⁄32 1 3/4 1 3⁄32 1 9⁄16 1 3⁄16 1 1/8 ids 1 1/4–12 V09ST V09SL V09SR 1 1/8 sq 4 25⁄32 1 3/4 1 3⁄32 1 13⁄16 1 3⁄16 1 3/8 ids 1 3/4–12 V11ST V11SL n/a 1 3/8 sq 6 3⁄16 2 5⁄16 1 15⁄32 2 3⁄16 1 5⁄16 Body Use stem end of valve & coupling connection as reference when determining gage port position 68 C D E . 5/8 2. Fits current indicator and alarm adaptor on units manufactured after 1972 INDIC 21 Replacement dial for LLI indicators INDIC 49 Replacement switch for LLH alarms 69 .3/8 5. UV 450 part number valve-621A used on RBV-96166 Both valves utilize the four (4) bolt mating flanges installed on these receivers C D Part number B dia.Menu (4) Bolt Flanged Valve/Indicator Components Product Accessories Horizontal Refrigerant Valves E A part number valve-85A used on RBV-72145 & RBV-96145 UV 275. to 4-bolt flange Dimensions (inches) A B C D E valve-85A 1.1/8 1.15⁄16 9.17⁄32 2.1⁄16 12 LLI / LLH components Part number GASKE 995 Neoprene flat gasket.1/8 2. UV350.1/2 valve-621A 2.13⁄16 3. Volts . . are on the outer side and are oper¬ated by a small magnet which follows the position of the inner magnet. Switch Duty . . AC Max. . or switch contacts. between the inside and outside. . . 70 Product Accessories . . . Pounds of refrigerant can be determined by taking the indicated percentage of the specified pumpdown capacity of the receiver. Each indicator–alarm uses highly reliable and accurate. . . . Voltage Input . There is no connection. . . . . . . . rubber sealed connector for easy installation and reliable connections. . . . Temperature. The voltage divider uses thick film element in conjunction with a multi–fingered contact to ensure accuracy and reliability. . . . and also between a unit and the liquid outlet pickup tube. . . The dial reads percent of pumpdown capacity of the receiver: when the pointer indicates 100%. the receiver is 80% full of liquid. In case of external damage. operating Working Pressuer. Amps. voltage divider technology to send the level signal to the level alarm. . . Normal location is on the side of the receiver. . 110 or 220 VAC Gauge Mounting. Watts. . . . visual indication of the liquid level in the tank. . Other locations may be provided if specified. . 1 (inductive) Max. single throw switch on which contacts close upon the decrease of the liquid level at 20% pumpdown. . Float and assembly dial are included.Alarm This indicator–alarm with selectable low–level point is designed for use in applications where low liquid level protection is desirable. . INDIC 58A Liquid Level Alarm A liquid-level indicator is a single pole. except the magnetic field. . . -20°C to 70°C (-4°F to 185°F). . Flange cost is not included in cost of indicator alarm. . Movement of the seamless aluminum float rotates a magnet on the inner side of the solid alu¬minum alloy head. . the indicator dial or switch cartridge may be replaced from outside— the refrigerant charge is not disturbed. It provides a relay circuit that closes at one of five user selectable levels of from 10 to 50%. Internal gears and bearings are stainless steel. . Rochester SeniorTM Adapter UL Status UL recognized for refrigeration All indicators require a factory installed flange and are available for 85⁄8 OD and larger horizontal receivers. . effective means of gauging the refrigerant level in a horizontal receiver. centered between the liquid inlet and outlet connections. . . relay circuitry. . . 75/150 INDIC 210A Liquid Level Indicator . provided the respective inlet or outlet fitting is moved to 1 1/2 tank diameters from that end. . . 240 VAC max. The indicator pointer. 5 amps. three wire. . . . The connector built into the indicator–alarm mates with a standard Packard automotive type. . only. 120/240 Max. Note that at least six inches are required between centers of adjacent liquid level indicator flanges. . . These can be mounted in the center of either end. The indicator–alarm also provides a direct. The relay circuit can be used to drive a variety of applications from alarms to pumps.Menu Float Type Indicators Part number LLI Liquid Level Magnetic liquid level indicators are an inexpensive. 410 PSIG Power Rating. . . . Valves should be slightly open while soldering. Teflon seals should be installed only after all soldering is completed. 71 . Order additional seals for replacement only. but should be kept as cool as possible. The stem packing will not withstand soldering temperatures. adapter or connection supplied on a vessel. Steel valves with flare connections are cadmium plated.Menu Product Accessories Rotolock® Components Straight Adapter Connections coupling connection ids ids connection A body coupling part number Body A (inches) 3/8 3/4–16 SA03 7/8 hex 1 9⁄32 1/2 1–14 SA04 7/8 hex 1 7⁄32 5/8 1–14 SA05 7/8 hex 1 9⁄32 7/8 1 1/4–12 SA07 1 1/8 hex 1 23⁄32 1 1/8 1 1/4–12 SA09 1 1/8 hex 1 31⁄32 1 3/8 1 3/4–12 SA11 1 3/4 hex 2 7⁄16 Angle Adapter Connections ids connection A B ids part number coupling 3/8 3/4–16 AA03 A (inches) 1 5⁄16 B (inches) 1/2 1/2 1–14 AA04 1 3⁄32 17⁄32 5/8 1–14 AA05 1 3⁄32 19⁄32 7/8 1 1/4–12 AA07 1 9⁄16 5/8 1 1/8 1 1/4–12 AA09 1 13⁄16 1 1 3/8 1 3/4–12 AA11 2 3⁄16 1 coupling connection Brass Adapter Connections thread connection ids A ids ods ods thread part number A (inches) 3/8 1/2 3/4–16 BA03x06 1 5⁄16 3/8 1/2 1–14 BA03x08 1 5⁄16 1/2 5/8 1–14 BA04x08 1 5⁄16 5/8 7/8 1–14 BA05x08 1 5⁄16 5/8 7/8 1 1/4–12 BA05x10 1 9⁄16 7/8 1 1/8 1 1/4–12 BA07x10 1 9⁄16 1 1/8 1 3/8 1 1/4–12 BA09x10 1 9⁄16 1 1/8 1 3/8 1 3/4–12 BA09x14 1 11⁄16 1 3/8 1 5/8 1 3/4–12 BA11x14 1 11⁄16 Teflon Fiber Seal Dimensions (inches) A ID ID OD OD A use with thread part number 7⁄16 9⁄16 1⁄16 3/4–16 TS-24590 5/8 3/4 1⁄16 1–14 TS-24591 7/8 1 1⁄16 1 1/4–12 TS-24592 1 3/8 1 1/2 1⁄16 1 3/4–12 TS-24593 valve and component notes Steel valves and adapters with ids connections are electrotin plated and can be silver soldered. A seal is furnished with each valve. The valve stem packing can withstand considerable heat. and the valve body must be protected if soldering is done near the valve. Fusible unions and plugs protect only in the event of fire.Menu Safety Devices/Sight Glass Indicators Product Accessories Fusible Unions Part number Connections flare temperature setting mpt union-184 3/8 3/8 212° F union-58 3/8 1/2 212° F union-319 3/8 5/8-18UNF 212° F union-67 3/8 1/2 275° F union-76 3/8 3/8 283° F Fusible Plugs Part number thread size (mpt) temperature setting plug-148 1/8 212° F plug-175 3/8 212° F plug-265 5/8-18UNF 212° F plug-166 1/8 283° F plug-337 3/8 283° F plug-364 5/8-18UNF 283° F Relief Valves Part number Connections mpt pressure setting valve-58 3/8 3/8 350 psi 3 9/16 valve-67 3/8 3/8 400 psi valve-94 1/2 5/8 350 psi valve-102 1/2 5/8 400 psi valve-764 1/2 5/8 450 psi valve-771 3/8 3/8 450 psi 1 3/8 1 5/8 flare protection notes Relief valves are installed in a refrigeration system primarily to protect the vessel in the event of fire or other emergency high pressure condition. Sightglass Part number thread size SG04 1/2 mpt float ball SG06 3/4 mpt float ball SG08 1 3/4 mpt float ball SG10 1 1/4 mpt float ball SG11 2 3/4 mpt float ball SG12 3/4 Rotalock float ball 1 1/4 -12 72 bulls–eye type . The 5/8–18UNF union or plug seats in a special 3/8" coupling with a copper zinc coated flare gasket.1 code. plug. A conventional 3/8" mpt pipe threaded union. or safety valve will also seal on the dryseal pipe thread of the coupling if ever necessary. exactly as an SAE flare fitting. All systems must have a relief valve or fuse plug installed in order to comply with the ANSI B9. 3 1/4 3 1/4 .025 slots Part number Dimensions (inches) A 6 4 3/4 B 1 3/4 1 3/4 4 3/4 A part number B Dimensions (inches) A B BR1 6 14 BR10 14 24 BR3 6 5/8 14 BR11 16 24 BR5 8 5/8 14 BR12 18 24 BR7 10 3/4 14 BR13 20 24 BR9 12 3/4 14 6 3/4 2 1/2 3 73 . mtg holes B 5/8 C D Dimensions (inches) A B 5 5 1/2 C 7 D E F 2 9⁄16 7⁄16 1 1⁄16 6A 6 5 1/2 7 2 9⁄16 7⁄16 1 1⁄16 6B 6 5/8 5 1/2 7 2 9⁄16 7⁄16 1 1⁄16 8B 8 5/8 8 9 2 78 7⁄16 1 1⁄16 10B 10 3/4 10 11 3 5⁄16 7⁄16 1 1⁄16 12B 12 3/4 11 5/8 13 4 1/8 9⁄16 1 1/2 14B 14 13 1/4 14 1/2 4 1/8 9⁄16 1 1/2 16B 16 15 3/4 17 4 1/8 9⁄16 1 1/2 Compressor/Condenser 15/16 2 1/16 (4) .Menu Product Accessories Brackets Universal Part F number 5A A E dia. holes .4 x 1.525 x 2.9 slots 33/64 dia.525 x 2.025 (2) 5/8 slots dia. Menu Alfa Laval 2050 North Ruby Street www.com +1 708 345 5400 ERC00261ENUS 0909 .stanref. IL 60160 +1 866 ALFA LAVAL USA Alfa Laval 2050 North Ruby Street Melrose Park.us Melrose Park. IL 60160 USA www.alfalaval.
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